CN220871160U - Spliced heat collector bearing framework - Google Patents

Abstract

The utility model discloses a spliced heat collector bearing framework which comprises a supporting component, wherein the supporting component comprises a fixing frame, a fixing block, a mounting piece and a supporting piece, the fixing block is fixed at the top of the fixing frame, the mounting piece is rotationally connected to the fixing block, and the supporting piece is movably connected to the top of the fixing frame; the butt joint assembly is arranged in the supporting assembly and comprises a movable frame, a limiting piece and a positioning piece, wherein the top of the fixing frame is provided with a movable groove, the movable frame is movably connected in the movable groove, the limiting piece is arranged in the movable frame, and the positioning piece is positioned on the inner side of the fixing frame. The utility model has the beneficial effects that: through the setting of docking subassembly, be convenient for set up the structure of accepting of heat collector, need not to fix through screw or welded mode, improved the efficiency of setting up the structure of accepting, possess the advantage of being convenient for demolish the maintenance simultaneously.

Description

Spliced heat collector bearing framework

Technical Field

The utility model relates to the technical field of heat collectors, in particular to a spliced heat collector bearing framework.

Background

The solar heat collector is one of the key equipment of solar air conditioner, and has the main functions of collecting heat energy in sunlight, transmitting cold water in water tank, heating water tank, and being the most attractive clean energy source for saving energy and protecting environment.

The prior art's collector is generally installed fixedly through the support frame when the installation, and traditional support frame is fixed when setting up usually using screw or welded mode, consequently need consume a large amount of time when the equipment is fixed, reduced the efficiency of installing the collector, have simultaneously to be unfavorable for dismantling the shortcoming of maintaining, propose a concatenation formula collector for this and accept the framework and solve above-mentioned problem.

Disclosure of utility model

This section is intended to outline some aspects of embodiments of the utility model and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the utility model and in the title of the utility model, which may not be used to limit the scope of the utility model.

The present utility model has been made in view of the above and/or problems occurring in the prior art spliced collector receiving architecture.

Therefore, the problem to be solved by the utility model is that the traditional support frame is usually fixed by using screws or welding during erection, so that a great deal of time is required to be consumed during assembly and fixation, the efficiency of installing the heat collector is reduced, and meanwhile, the defect that the disassembly and maintenance are not convenient exists.

In order to solve the technical problems, the utility model provides the following technical scheme: the spliced heat collector supporting framework comprises a supporting component, wherein the supporting component comprises a fixing frame, a fixing block, a mounting piece and a supporting piece, the fixing block is fixed at the top of the fixing frame, the mounting piece is rotationally connected to the fixing block, and the supporting piece is movably connected to the top of the fixing frame;

The butt joint assembly is arranged in the supporting assembly and comprises a movable frame, a limiting piece and a positioning piece, wherein the top of the fixing frame is provided with a movable groove, the movable frame is movably connected in the movable groove, the limiting piece is arranged in the movable frame, and the positioning piece is positioned on the inner side of the fixing frame.

As a preferable scheme of the spliced heat collector receiving structure of the utility model, the spliced heat collector receiving structure comprises: the installation piece comprises a movable rod and a connecting rod, wherein the movable rod is movably connected to the side face of the fixed block, and the connecting rod is fixed to one side of the movable rod.

As a preferable scheme of the spliced heat collector receiving structure of the utility model, the spliced heat collector receiving structure comprises: the support piece comprises a support column, a fixing sleeve and a connecting column, wherein the support column is arranged at the top of the fixing frame, the fixing sleeve is fixed on the outer side of the support column, the connecting column is movably connected in the fixing sleeve, and the top of the connecting column is movably connected with the movable rod.

As a preferable scheme of the spliced heat collector receiving structure of the utility model, the spliced heat collector receiving structure comprises: the limiting piece comprises a connecting block, a sliding block, a first spring and a limiting column, wherein the connecting block is fixed at the bottom of the supporting column, the sliding block is movably connected in a driving movable frame, the first spring is fixed on one side of the sliding block, the other end of the first spring is fixed on the inner wall of the movable frame, and the limiting column is fixed in the sliding block.

As a preferable scheme of the spliced heat collector receiving structure of the utility model, the spliced heat collector receiving structure comprises: the spacing post one end is the slope form, and inclination is forty-five degrees, spacing post one end peg graft in the connecting block.

As a preferable scheme of the spliced heat collector receiving structure of the utility model, the spliced heat collector receiving structure comprises: a sliding groove is formed in the inner bottom wall of the movable frame, and the bottom of the sliding block slides in the sliding groove.

As a preferable scheme of the spliced heat collector receiving structure of the utility model, the spliced heat collector receiving structure comprises: the limiting piece further comprises a pull rod and a push block, wherein the pull rod is fixed on one side of the sliding block, and the push block is fixed at one end of the pull rod.

As a preferable scheme of the spliced heat collector receiving structure of the utility model, the spliced heat collector receiving structure comprises: the locating piece includes pinion rack, fixed plate, locating lever, limiting plate and gear, the pinion rack is fixed in the movable frame outside, the fixed plate is fixed in the mount is inboard, locating lever swing joint in the fixed plate, the limiting plate is fixed in locating lever one side, the gear rotate connect in diapire in the fixed plate.

As a preferable scheme of the spliced heat collector receiving structure of the utility model, the spliced heat collector receiving structure comprises: the positioning piece further comprises a positioning block and a second spring, wherein the positioning block is fixed at the top of the positioning rod, the second spring is fixed on one side of the positioning block, and the other side of the second spring is fixed with the positioning block.

The utility model has the beneficial effects that: through the setting of docking subassembly, be convenient for set up the structure of accepting of heat collector, need not to fix through screw or welded mode, improved the efficiency of setting up the structure of accepting, possess the advantage of being convenient for demolish the maintenance simultaneously.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

Fig. 1 is a block diagram of a splice-type collector receiving architecture.

Fig. 2 is an enlarged view of the structure of the spliced collector receiving structure at a in fig. 1.

Fig. 3 is a structural view of a fixing frame of a spliced heat collector receiving structure.

Fig. 4 is an enlarged view of the structure of the spliced collector receiving structure at B in fig. 3.

Fig. 5 is another view angle structure diagram of the movable frame of the spliced collector receiving structure.

Detailed Description

In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present utility model is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the utility model. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 and 2, in a first embodiment of the present utility model, a spliced heat collector supporting structure is provided, and the spliced heat collector supporting structure includes a supporting component 100 and a docking component 200, so that the supporting structure is convenient to assemble by matching the supporting component and the docking component, and further the efficiency of installing the heat collector is improved.

Specifically, the support assembly 100 comprises a fixing frame 101, a fixing block 102, a mounting piece 103 and a support piece 104, wherein the fixing block 102 is fixed on the top of the fixing frame 101, the mounting piece 103 is rotatably connected to the fixing block 102, and the support piece 104 is movably connected to the top of the fixing frame 101;

The fixing frame 101 is rectangular, and is used for supporting the mounting piece 103 by matching with the fixing block 102 and the supporting piece 104, and fixing the heat collector through the mounting piece 103, so that the heat collector is stable in use.

Specifically, the docking assembly 200 is disposed in the support assembly 100, and includes a movable frame 201, a limiting member 202 and a positioning member 203, a movable slot S is formed at the top of the fixing frame 101, the movable frame 201 is movably connected in the movable slot S, the limiting member 202 is disposed in the movable frame 201, and the positioning member 203 is located inside the fixing frame 101.

When the supporting piece 104 is fixed, firstly, the supporting piece 104 is matched with the limiting piece 202 to be inserted into the movable frame 201, the supporting piece 104 is fixed through the limiting piece 202, the supporting piece 104 is kept stable, then the movable frame 201 is slid, the limiting piece 202 is driven to move through the movable frame 201, the limiting piece 202 drives the supporting piece 104 to move, the mounting piece 103 is driven to move through the supporting piece 104, one end of the mounting piece 103 moves upwards or downwards in an arc shape, and therefore the mounting angle of the heat collector can be adjusted.

Example 2

Referring to fig. 2 to 5, this embodiment is based on the previous embodiment, which is a second embodiment of the present utility model.

Specifically, the mounting member 103 includes a movable rod 103a and a connecting rod 103b, the movable rod 103a is movably connected to the side of the fixed block 102, and the connecting rod 103b is fixed to one side of the movable rod 103 a.

The movable rod 103a and the connecting rod 103b are two, one end of the two movable rods 103a is rotationally connected with the fixed block 102 through a rotating shaft, the other end of the movable rod 103a is rotationally connected with the supporting piece 104 through the rotating shaft, and the movable rod 103b and the connecting rod 103a are used for installing the heat collector, so that the heat collector is stable in use.

Specifically, the supporting member 104 includes a supporting column 104a, a fixing sleeve 104b and a connecting column 104c, the supporting column 104a is disposed at the top of the fixing frame 101, the fixing sleeve 104b is fixed on the outer side of the supporting column 104a, the connecting column 104c is movably connected in the fixing sleeve 104b, and the top of the connecting column 104c is movably connected with the movable rod 103 a.

The support column 104a is provided with two, and two support columns 104a swing joint are in mount 101 top, support through support column 104a and fixed cover 104b, and make fixed cover 104b drive support column 104a and remove, drive movable rod 103a through support column 104a and remove, movable rod 103a one end is through fixed block 102 as the fulcrum for the movable rod 103a other end is fan-shaped and removes, drive connecting rod 103b through movable rod 103a and remove, with this angle to the heat collector is adjusted, makes the angle of heat collector can adjust according to the actual use needs.

Specifically, the limiting member 202 includes a connecting block 202a, a slider 202b, a first spring 202c and a limiting post 202d, the connecting block 202a is fixed at the bottom of the supporting column 104a, the slider 202b is movably connected in the driving movable frame 201, the first spring 202c is fixed at one side of the slider 202b, the other end of the first spring 202c is fixed with the inner wall of the movable frame 201, and the limiting post 202d is fixed in the slider 202 b.

The connecting block 202a is T-shaped, when the support column 104a is inserted into the movable frame 201, the connecting block 202a moves along with the support column 104a and is inserted into the movable frame 201, meanwhile, the bottom end of the connecting block 202a presses the limit column 202d, the limit column 202d moves to one side, the limit column 202d drives the sliding block 202b to move while moving, the sliding block 202b pushes the first spring 202c to move, the first spring 202c is stressed to deform, a limit hole matched with the limit column 202d is formed in one side of the connecting block 202a, when the limit column 202d is kept at the level with the limit hole, the sliding block 202b is pushed to move by the reset elastic force of the first spring 202c, the sliding block 202b drives the limit column 202d to move, one end of the limit column 202d is inserted into the limit hole, so that the connecting block 202a is fixed, the butt joint of the support column 104a is completed, the connecting column 104c is positioned by the support column 104a and the movable rod 103a and the connecting rod 103b are kept stable by the support column 104a and the fixed sleeve 104 b.

Specifically, one end of the limiting post 202d is inclined, and the inclination angle is forty-five degrees, and one end of the limiting post 202d is inserted into the connecting block 202 a.

Specifically, a chute M is formed in the inner bottom wall of the movable frame 201, and the bottom of the slider 202b slides in the chute M.

The sliding groove M is used for limiting the sliding block 202b, and the sliding block 202b is kept stable during movement.

Specifically, the limiting member 202 further includes a pull rod 202e and a push block 202f, the pull rod 202e is fixed to one side of the slider 202b, and the push block 202f is fixed to one end of the pull rod 202 e.

When the support column 104a needs to be dismantled, the pull rod 202e is pushed to one side, the slide block 202b is driven to move by the pull rod 202e, the slide block 202b drives the limit column 202d to move, one end of the limit column 202d is removed from the limit hole, and further the limit of the connecting block 202a is released, so that the support column 104a can be dismantled, and the supporting framework is convenient to maintain.

Example 3

Referring to fig. 1 to 5, a third embodiment of the present utility model is based on the first two embodiments.

Specifically, the positioning member 203 includes a toothed plate 203a, a fixed plate 203b, a positioning rod 203c, a limiting plate 203d, and a gear 203g, wherein the toothed plate 203a is fixed on the outer side of the movable frame 201, the fixed plate 203b is fixed on the inner side of the fixed frame 101, the positioning rod 203c is movably connected in the fixed plate 203b, the limiting plate 203d is fixed on one side of the positioning rod 203c, and the gear 203g is rotatably connected to the inner bottom wall of the fixed plate 203 b.

When the angle of the heat collector is adjusted, the positioning rod 203c is pulled to one side, the positioning rod 203c drives the limiting plate 203d to move, teeth on one side of the limiting plate 203d are separated from the toothed plate 203a, at this time, the movable frame 201 drives the toothed plate 203a to move in the moving process, and the toothed plate 203a drives the gear 203g to rotate, so that the movable support column 104a, the fixed sleeve 104b and the connecting column 104c adjust the angle of the movable rod 103 a.

Specifically, the positioning piece 203 further includes a positioning block 203e and a second spring 203f, the positioning block 203e is fixed on the top of the positioning rod 203c, the second spring 203f is fixed on one side of the positioning block 203e, and the other side of the second spring 203f is fixed with the positioning block 203 e.

Through the setting of second spring 203f, pulling locating piece 203e removes, drive locating lever 203c through locating piece 203e and remove, locating lever 203c drives limiting plate 203d and removes, and make limiting plate 203d carry out spacingly to gear 203g, gear 203g is spacing to pinion rack 203a, and make pinion rack 203a spacing to movable frame 201, movable frame 201 passes through connecting block 202a spacing to support column 104a, thereby make support column 104a keep stable, support column 104a cooperates fixed cover 104b and spliced pole 104c to fix a position the angle after movable lever 103a adjusts, so that the heat collector keeps firm after the installation.

When the movable frame 201 is used, the support column 104a is inserted into the movable frame 201 when the support column 104a is fixed, at the moment, the connecting block 202a moves along with the support column 104a and is inserted into the movable frame 201, meanwhile, the bottom end of the connecting block 202a presses the limit column 202d, the limit column 202d moves to one side, the limit column 202d drives the sliding block 202b to move while moving, the sliding block 202b pushes the first spring 202c to move, so that the first spring 202c is stressed to deform, a limit hole matched with the limit column 202d is formed in one side of the connecting block 202a, when the limit column 202d is kept in a constant state with the limit hole, the sliding block 202b is pushed to move by the reset elastic force of the first spring 202c, the sliding block 202b drives the limit column 202d to move, one end of the limit column 202d is inserted into the limit hole, the connecting block 202a is fixed, the butt joint of the support column 104a is completed by the connecting block 202a, and the connecting column 104c is positioned by the support column 104a and the fixing sleeve 104b, so that the movable rod 103a and the connecting rod 103b are kept stable.

When the angle of the heat collector is adjusted, the positioning rod 203c is pulled to one side, the limiting plate 203d is driven to move through the positioning rod 203c, teeth on one side of the limiting plate 203d are separated from the toothed plate 203a, at the moment, the movable frame 201 drives the toothed plate 203a to move in the moving process, the toothed plate 203a drives the gear 203g to rotate, the angle of the movable rod 103a is adjusted by the movable support column 104a, the fixed sleeve 104b and the connecting column 104c, the positioning rod 203c is driven to move through the positioning block 203e, the positioning rod 203c is driven to move through the positioning rod 203e, the limiting plate 203d is driven to move by the positioning rod 203c, the limiting plate 203d limits the gear 203g, the toothed plate 203a limits the movable frame 201, the movable frame 201 limits the support column 104a through the connecting block 202a, so that the support column 104a keeps stable, and the support column 104a is matched with the fixed sleeve 104b and the connecting column 104c to position the angle adjusted by the movable rod 103a, so that the heat collector keeps stable after being installed.

It should be noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present utility model may be modified or substituted without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered in the scope of the claims of the present utility model.

Claims (9)

1. The utility model provides a concatenation formula collector accepts framework which characterized in that: comprising the steps of (a) a step of,

The support assembly (100) comprises a fixing frame (101), a fixing block (102), a mounting piece (103) and a support piece (104), wherein the fixing block (102) is fixed at the top of the fixing frame (101), the mounting piece (103) is rotationally connected to the fixing block (102), and the support piece (104) is movably connected to the top of the fixing frame (101);

The butt joint assembly (200) is arranged in the support assembly (100), and comprises a movable frame (201), a limiting piece (202) and a positioning piece (203), wherein a movable groove (S) is formed in the top of the fixing frame (101), the movable frame (201) is movably connected in the movable groove (S), the limiting piece (202) is arranged in the movable frame (201), and the positioning piece (203) is located on the inner side of the fixing frame (101).

2. The splice collector receiving architecture of claim 1, wherein: the mounting piece (103) comprises a movable rod (103 a) and a connecting rod (103 b), wherein the movable rod (103 a) is movably connected to the side face of the fixed block (102), and the connecting rod (103 b) is fixed on one side of the movable rod (103 a).

3. The splice collector receiving architecture of claim 2, wherein: the support piece (104) comprises a support column (104 a), a fixing sleeve (104 b) and a connecting column (104 c), wherein the support column (104 a) is arranged at the top of the fixing frame (101), the fixing sleeve (104 b) is fixed on the outer side of the support column (104 a), the connecting column (104 c) is movably connected in the fixing sleeve (104 b), and the top of the connecting column (104 c) is movably connected with the movable rod (103 a).

4. A splice collector receiving structure as claimed in claim 3, wherein: the limiting piece (202) comprises a connecting block (202 a), a sliding block (202 b), a first spring (202 c) and a limiting column (202 d), wherein the connecting block (202 a) is fixed at the bottom of the supporting column (104 a), the sliding block (202 b) is movably connected in a driving movable frame (201), the first spring (202 c) is fixed on one side of the sliding block (202 b), the other end of the first spring (202 c) is fixed with the inner wall of the movable frame (201), and the limiting column (202 d) is fixed in the sliding block (202 b).

5. The splice collector receiving architecture of claim 4, wherein: one end of the limiting column (202 d) is inclined, the inclination angle is forty-five degrees, and one end of the limiting column (202 d) is inserted into the connecting block (202 a).

6. The splice collector receiving architecture of claim 5, wherein: a sliding groove (M) is formed in the inner bottom wall of the movable frame (201), and the bottom of the sliding block (202 b) slides in the sliding groove (M).

7. The splice collector receiving architecture of claim 6, wherein: the limiting piece (202) further comprises a pull rod (202 e) and a pushing block (202 f), wherein the pull rod (202 e) is fixed on one side of the sliding block (202 b), and the pushing block (202 f) is fixed on one end of the pull rod (202 e).

8. The splice-type collector receiving architecture of claim 6 or 7, wherein: the locating piece (203) comprises a toothed plate (203 a), a fixed plate (203 b), a locating rod (203 c), a limiting plate (203 d) and a gear (203 g), wherein the toothed plate (203 a) is fixed on the outer side of the movable frame (201), the fixed plate (203 b) is fixed on the inner side of the fixed frame (101), the locating rod (203 c) is movably connected in the fixed plate (203 b), the limiting plate (203 d) is fixed on one side of the locating rod (203 c), and the gear (203 g) is rotationally connected to the inner bottom wall of the fixed plate (203 b).

9. The splice collector receiving architecture of claim 8, wherein: the positioning piece (203) further comprises a positioning block (203 e) and a second spring (203 f), the positioning block (203 e) is fixed to the top of the positioning rod (203 c), the second spring (203 f) is fixed to one side of the positioning block (203 e), and the other side of the second spring (203 f) is fixed to the positioning block (203 e).