CN222687181U - A combined shock-absorbing bracket special-shaped spring - Google Patents

Abstract

The application relates to a combined damping support special-shaped spring which comprises a support bottom plate, wherein a support connecting part is connected to the support bottom plate through a bolt, a support guiding part is connected to the inside of the support connecting part in a sliding manner, a support top plate is connected to the top end of the support guiding part in a threaded manner, a tower-shaped spring is arranged between the support bottom plate and the contact surface of the support top plate, the support connecting part and the support guiding part are both positioned in the tower-shaped spring, and a supporting spring is arranged in the support connecting part.

Description

Combined damping support special-shaped spring

Technical Field

The application relates to the technical field of special-shaped springs, in particular to a combined damping bracket special-shaped spring.

Background

The shaped spring is a type of spring having a cross-sectional shape and size different from those of a conventional circular spring. Shaped springs are typically designed with non-circular cross-sections, such as rectangular, oval, square, tower-shaped, etc., to meet specific application requirements. Wherein a tower spring is a spring that resembles the shape of a tower, commonly used in industrial and mechanical applications. The tower-type spring has a larger working height when in use, and can provide larger deformation in a smaller space. Because of the special shape design, the tower-type spring can bear higher load, has better stability in the working process and is not easy to deform or fail.

In the related art, the tower type spring is installed and in the use, adopts the mode of joint installation to directly be connected with the object that needs to carry out the support generally, and nevertheless this kind of mode is convenient to load and unload, nevertheless can influence the stability of tower type spring in the use to the condition that can make the tower type spring come off appears, lead to the effect inefficacy of tower type spring easily, be unfavorable for the in-service use, consequently, the skilled person provides a combination formula shock attenuation support dysmorphism spring, in order to solve the problem that proposes among the above-mentioned background art.

Disclosure of utility model

In order to solve the problems that in the prior art, the tower-shaped spring is usually connected with an object to be supported in a clamping and mounting mode in the mounting and using processes, and the stability of the tower-shaped spring can be affected in the using process although the clamping and mounting mode is convenient to assemble and disassemble, so that the tower-shaped spring can fall off and the action of the tower-shaped spring is easy to fail.

The application provides a combined damping bracket special-shaped spring which adopts the following technical scheme:

The utility model provides a combination formula shock attenuation support dysmorphism spring, includes the support bottom plate, there is the leg joint portion through bolted connection on the support bottom plate, the inside sliding connection of leg joint portion has the support guiding portion, the top threaded connection of support guiding portion has the support roof, the support bottom plate with be provided with tower type spring between the contact surface of support roof, the leg joint portion with the support guiding portion all is located the inside of tower type spring, the inside of leg joint portion is provided with supporting spring, supporting spring's lower terminal surface with the inner wall looks butt of support bottom plate, supporting spring's up end with the lower terminal surface looks butt of support guiding portion.

Through adopting above-mentioned technical scheme, when the tower type spring receives the extrusion and contracts because of absorption and buffering external impact and vibrations, through support connecting portion and support guiding portion cooperation, can lead the shift position between support bottom plate and the support roof to can strengthen the stability when tower type spring uses, restrict the mounted position of tower type spring between support bottom plate and support roof simultaneously.

Preferably, the support bottom plate comprises a first circular plate, the upper surface of the first circular plate is provided with a mounting groove, the bottom end of the support connecting part is located inside the mounting groove, a plurality of first mounting holes penetrating through the first circular plate are uniformly formed in the first circular plate, and the plurality of first mounting holes are circumferentially arrayed around the mounting groove.

Through adopting above-mentioned technical scheme, the mounting groove can restrict the mounting position of support connecting portion on first circular plate, and first mounting hole and bolt cooperation can install first circular plate on the holding surface.

Preferably, the support connecting portion comprises a rectangular guide pipe, the supporting spring is located in the rectangular guide pipe, an annular mounting plate is fixedly connected to the lower end face of the rectangular guide pipe and located in the mounting groove, a plurality of second mounting holes penetrating through the annular mounting plate are evenly formed in the annular mounting plate, and the second mounting holes are circumferentially arrayed around the rectangular guide pipe.

Through adopting above-mentioned technical scheme, can restrict the mounted position of supporting spring through the rectangle pipe, through annular mounting panel and mounting groove and bolt cooperation, can install the rectangle pipe on first circular plate.

Preferably, a limiting column is arranged in the mounting groove, and the limiting column is located in the bottom end of the supporting spring.

Through adopting above-mentioned technical scheme, can restrict the mounted position of supporting spring bottom through spacing post to can strengthen supporting spring's stability.

Preferably, the support guide part comprises a rectangular limiting plate which is slidably connected with the inner wall of the rectangular guide pipe, a guide rod is fixedly connected with the upper surface of the rectangular limiting plate, the upper end face of the guide rod penetrates through the rectangular guide pipe and is fixedly connected with a threaded connector, and the outer wall of the threaded connector is in threaded connection with the inner wall of the support top plate.

Through adopting above-mentioned technical scheme, the hookup location between rectangular limiting plate can restriction guide arm and the rectangular pipe, and threaded connection head can be connected between with the support roof to cooperate through guide arm and rectangular pipe, when the tower spring stretches out and draws back, can lead the shift position between support bottom plate and the support roof.

Preferably, the bracket top plate comprises a second circular plate, the lower surface of the second circular plate is provided with threaded connection holes, the second circular plate is uniformly provided with a plurality of third mounting holes penetrating through the second circular plate, and the third mounting holes are circumferentially arranged around the threaded connection holes.

Through adopting above-mentioned technical scheme, threaded connection hole can restrict the mounted position of threaded connection head, and the third mounting hole cooperates with the bolt, can fix the second circular plate in the one side that needs to support the object.

Preferably, the upper surface fixedly connected with first spacing ring of first circular plate, the bottom of tower spring is located the inside of first spacing ring, the lower surface fixedly connected with second spacing ring of second circular plate, the top of tower spring is located the inside of second spacing ring.

Through adopting above-mentioned technical scheme, first spacing ring can restrict the mounted position of tower type spring bottom on first circular plate, and the mounted position of second circular plate bottom can be restricted at the tower type spring top to can strengthen the stability of tower type spring installation.

In summary, the application has the following beneficial technical effects:

1. The combined damping support special-shaped spring is arranged between the contact surfaces of the support bottom plate and the support top plate, when the tower-shaped spring is extruded and contracted due to the absorption and the buffering of external impact and vibration, the support connecting part is matched with the support guiding part, so that the moving position between the support bottom plate and the support top plate can be guided, the stability of the tower-shaped spring in use can be enhanced, meanwhile, the support connecting part is matched with the support guiding part, the installation position of the tower-shaped spring between the support bottom plate and the support top plate can be limited, the falling-off condition of the tower-shaped spring can be avoided as much as possible, and the service condition of the tower-shaped spring can be guaranteed;

2. According to the combined damping support special-shaped spring, the mounting position of the support connecting part on the first circular plate can be limited through the mounting groove, the first mounting hole and the bolt are matched to enable the first circular plate to be mounted on the supporting surface, the mounting position of the supporting spring can be limited through the rectangular guide pipe, the rectangular guide pipe can be mounted on the first circular plate through the annular mounting plate and the mounting groove and the bolt, the mounting position of the bottom end of the supporting spring can be limited through the limiting column, and therefore stability of the supporting spring can be enhanced;

3. This combination formula shock absorber support dysmorphism spring, the hookup location between guide arm and the rectangle pipe can be restricted to the rectangle limiting plate that sets up, threaded connection hole can restrict the mounted position of screwed joint head, thereby through guide arm and rectangle pipe cooperation, when the tower type spring stretches out and draws back, can lead the shift position between support bottom plate and the support roof, third mounting hole and bolt cooperation, can fix the second circular plate in one side that needs to support the object, first spacing ring can restrict the mounted position of tower type spring bottom on first circular plate, the second spacing ring can restrict the mounted position of tower type spring top in second circular plate bottom, thereby can strengthen the stability of tower type spring installation, avoid the skew condition to the greatest extent that the tower type spring appears when using.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a schematic view of a bracket floor structure in an embodiment of the application;

FIG. 3 is a schematic cross-sectional view of a bracket floor in an embodiment of the application;

Fig. 4 is a schematic view of a bracket connection structure in an embodiment of the present application.

The reference numerals comprise 1, a bracket bottom plate, 101, a first circular plate, 102, a mounting groove, 103, a first mounting hole, 2, a bracket connecting part, 201, a rectangular guide pipe, 202, an annular mounting plate, 203, a second mounting hole, 3, a bracket guiding part, 301, a rectangular limiting plate, 302, a guide rod, 303, a threaded connector, 4, a bracket top plate, 401, a second circular plate, 402, a threaded connecting hole, 403, a third mounting hole, 5, a tower-shaped spring, 6, a supporting spring, 7, a first limiting ring, 8, a second limiting ring and 9, a limiting post.

Detailed Description

The application is described in further detail below with reference to fig. 1-4.

The embodiment of the application discloses a special-shaped spring of a combined shock-absorbing bracket. Referring to fig. 1, 2 and 3, this combination formula shock attenuation support dysmorphism spring, including support bottom plate 1, there is leg joint portion 2 through bolted connection on the support bottom plate 1, the inside sliding connection of leg joint portion 2 has support guiding portion 3, the top threaded connection of support guiding portion 3 has support roof 4, be provided with tower spring 5 between the contact surface of support bottom plate 1 and support roof 4, leg joint portion 2 and support guiding portion 3 all are located the inside of tower spring 5, the inside of leg joint portion 2 is provided with supporting spring 6, the lower terminal surface and the inner wall looks butt of support bottom plate 1 of supporting spring 6, the up end looks butt of supporting spring 6 and the lower terminal surface looks butt of support guiding portion 3.

In the embodiment, the bracket bottom plate 1 arranged in the combined damping bracket special-shaped spring can limit the installation position of the bracket connecting part 2, the installation position of the bracket guide part 3 can be limited through the bracket connecting part 2, the installation position of the bracket top plate 4 can be limited through the bracket guide part 3, the arranged tower-shaped spring 5 is supported between the contact surfaces of the bracket bottom plate 1 and the bracket top plate 4, so that the bracket bottom plate 1 and the bracket top plate 4 can be respectively arranged between the supporting surface and a supported object directly through bolts when the combined damping bracket special-shaped spring is arranged, further, after the tower-shaped spring 5 is arranged, the arranged bracket connecting part 2 and the bracket guide part 3 are positioned in the tower-shaped spring 5, and the bracket connecting part 2 and the bracket guide part 3 can stretch according to requirements, therefore, when the tower-shaped spring 5 is extruded and contracted due to the absorption and release of external impact and vibration, the support connecting part 2 is matched with the support guiding part 3, the moving position between the support bottom plate 1 and the support top plate 4 can be guided, so that the stability of the tower-shaped spring 5 in use can be enhanced, meanwhile, the support connecting part 2 is matched with the support guiding part 3, the installation position of the tower-shaped spring 5 between the support bottom plate 1 and the support top plate 4 can be limited, the situation that the tower-shaped spring 5 falls off can be avoided as much as possible, the use condition of the tower-shaped spring 5 can be ensured, furthermore, the support spring 6 is arranged in the support connecting part 2, so that the bearing capacity and the stability of the support can be increased through the elastic deformation of the support spring 6 when the support connecting part 2 and the support guiding part 3 are stretched, the service life of the support and the tower-shaped spring 5 can be prolonged, the application is more beneficial to practical use.

In a further preferred embodiment of the present utility model, as shown in fig. 1, 2 and 3, the bracket base plate 1 includes a first circular plate 101, a mounting groove 102 is formed on an upper surface of the first circular plate 101, a bottom end of the bracket connection portion 2 is located inside the mounting groove 102, a plurality of first mounting holes 103 penetrating the first circular plate 101 are uniformly formed on the first circular plate 101, and the plurality of first mounting holes 103 are circumferentially arranged around the mounting groove 102.

In this embodiment, the mounting position of the bracket connection portion 2 on the first circular plate 101 can be limited by the mounting groove 102, the first circular plate 101 can be mounted on the supporting surface by the plurality of first mounting holes 103 and bolts, and thus the mounting position of the first circular plate 101 can be limited, and the mounting stability of the first circular plate 101 can be enhanced.

In a further preferred embodiment of the present utility model, as shown in fig. 2,3 and 4, the bracket connection part 2 includes a rectangular conduit 201, the supporting spring 6 is located inside the rectangular conduit 201, the lower end surface of the rectangular conduit 201 is fixedly connected with an annular mounting plate 202, the annular mounting plate 202 is located inside the mounting groove 102, a plurality of second mounting holes 203 penetrating the annular mounting plate 202 are uniformly formed in the annular mounting plate 202, and the plurality of second mounting holes 203 are circumferentially arranged around the rectangular conduit 201.

In this embodiment, the installation position of the support spring 6 can be limited by the rectangular guide pipe 201, and the bottom of the support guide part 3 is located inside the rectangular guide pipe 201, so that the installation and movement position of the support guide part 3 can be limited by the rectangular guide pipe 201, the rectangular guide pipe 201 can be installed on the first circular plate 101 by matching the annular installation plate 202 with the installation groove 102 and the bolts, and meanwhile, the rectangular guide pipe 201 can be detached by a person as required, so that the person can replace the support spring 6.

In a further preferred embodiment of the present utility model, as shown in fig. 3, the inside of the mounting groove 102 is provided with a limit post 9, and the limit post 9 is located inside the bottom end of the support spring 6.

In the present embodiment, the mounting position of the bottom end of the support spring 6 can be restricted by the provided stopper post 9 when the support spring 6 is mounted, so that the stability of the support spring 6 can be enhanced when it is used.

In a further preferred embodiment of the present utility model, as shown in fig. 2, 3 and 4, the support guiding portion 3 includes a rectangular limiting plate 301 slidably connected to an inner wall of the rectangular conduit 201, a guide rod 302 is fixedly connected to an upper surface of the rectangular limiting plate 301, a threaded connector 303 is fixedly connected to an upper end surface of the guide rod 302 penetrating through the rectangular conduit 201, and an outer wall of the threaded connector 303 is in threaded connection with an inner wall of the support top plate 4.

In this embodiment, the connection position between the guide rod 302 and the rectangular guide pipe 201 can be limited by the rectangular limiting plate 301, and the guide rod 302 and the rectangular guide pipe 201 can be connected by the screw connector 303, so that the moving position between the bracket bottom plate 1 and the bracket top plate 4 can be guided when the tower-shaped spring 5 stretches and contracts, and further, the position of the guide rod 302 can be limited when the rectangular guide pipe 201 is matched with the rectangular limiting plate 301, and the condition that the screw connector 303 loosens due to rotation of the guide rod 302 can be avoided as much as possible when the rectangular guide pipe is used.

In a further preferred embodiment of the present utility model, as shown in fig. 2, 3 and 4, the bracket top plate 4 includes a second circular plate 401, a threaded connection hole 402 is formed on the lower surface of the second circular plate 401, a plurality of third mounting holes 403 penetrating the second circular plate 401 are uniformly formed on the second circular plate 401, and the plurality of third mounting holes 403 are circumferentially arranged around the threaded connection hole 402.

In this embodiment, the installation position of the screw connector 303 can be limited by the screw connection hole 402, and the second circular plate 401 can be fixed on the side where the object needs to be supported by the third installation holes 403 which are formed and matched with the bolts, so that the stability of the application in use can be enhanced.

In a further preferred embodiment of the present utility model, as shown in fig. 1, 2 and 3, the upper surface of the first circular plate 101 is fixedly connected with a first limiting ring 7, the bottom of the tower-shaped spring 5 is located inside the first limiting ring 7, the lower surface of the second circular plate 401 is fixedly connected with a second limiting ring 8, and the top of the tower-shaped spring 5 is located inside the second limiting ring 8.

In this embodiment, after the installation of the tower-shaped spring 5, the installation position of the bottom of the tower-shaped spring 5 on the first circular plate 101 can be limited by the first limiting ring 7, and the installation position of the top of the tower-shaped spring 5 on the bottom of the second circular plate 401 can be limited by the second limiting ring 8, so that the stability of the installation of the tower-shaped spring 5 can be enhanced, and the situation that the tower-shaped spring 5 deflects when in use can be avoided as much as possible.

The implementation principle of the combined damping bracket special-shaped spring provided by the embodiment of the application is as follows:

When the support device is used, the tower-shaped springs 5 are arranged between the contact surfaces of the support bottom plate 1 and the support top plate 4, the support bottom plate 1 and the support top plate 4 can be directly arranged between the support surface and a supported object through bolts, when the tower-shaped springs 5 are extruded and contracted due to the absorption and release of external impact and vibration, the moving positions of the support bottom plate 1 and the support top plate 4 can be guided through the cooperation of the support connecting parts 2 and the support guiding parts 3, so that the stability of the tower-shaped springs 5 in use can be enhanced, and meanwhile, the installation positions of the tower-shaped springs 5 between the support bottom plate 1 and the support top plate 4 can be limited through the cooperation of the support connecting parts 2 and the support guiding parts 3, so that the falling-off situation of the tower-shaped springs 5 can be avoided as much as possible, the use condition of the tower-shaped springs 5 can be guaranteed, and the support device is more beneficial to practical use.

The above embodiments are not intended to limit the scope of the application, so that the equivalent changes of the structure, shape and principle of the application are covered by the scope of the application.

Claims (7)

1. A combined shock-absorbing bracket shaped spring, comprising a bracket base plate (1), characterized in that: a bracket connecting portion (2) is connected to the bracket base plate (1) by bolts, a bracket guide portion (3) is slidably connected inside the bracket connecting portion (2), a bracket top plate (4) is threadedly connected to the top of the bracket guide portion (3), a tower spring (5) is arranged between the contact surfaces of the bracket base plate (1) and the bracket top plate (4), the bracket connecting portion (2) and the bracket guide portion (3) are both located inside the tower spring (5), a support spring (6) is arranged inside the bracket connecting portion (2), the lower end surface of the support spring (6) abuts against the inner wall of the bracket base plate (1), and the upper end surface of the support spring (6) abuts against the lower end surface of the bracket guide portion (3). 2. A combined shock-absorbing bracket special-shaped spring according to claim 1, characterized in that: the bracket base plate (1) includes a first circular plate (101), the upper surface of the first circular plate (101) is provided with a mounting groove (102), the bottom end of the bracket connecting part (2) is located inside the mounting groove (102), and the first circular plate (101) is evenly provided with a plurality of first mounting holes (103) that penetrate the first circular plate (101), and the plurality of first mounting holes (103) are arranged in a circle around the mounting groove (102). 3. A combined shock-absorbing bracket special-shaped spring according to claim 2, characterized in that: the bracket connecting part (2) includes a rectangular tube (201), the support spring (6) is located inside the rectangular tube (201), the lower end surface of the rectangular tube (201) is fixedly connected with an annular mounting plate (202), the annular mounting plate (202) is located inside the mounting groove (102), and the annular mounting plate (202) is evenly provided with a plurality of second mounting holes (203) that penetrate the annular mounting plate (202), and the plurality of second mounting holes (203) are arranged in a circle around the rectangular tube (201). 4. A combined shock-absorbing bracket special-shaped spring according to claim 2, characterized in that a limiting column (9) is arranged inside the mounting groove (102), and the limiting column (9) is located inside the bottom end of the supporting spring (6). 5. A combined shock-absorbing bracket special-shaped spring according to claim 3, characterized in that: the bracket guide portion (3) includes a rectangular limit plate (301) slidably connected to the inner wall of the rectangular guide tube (201), the upper surface of the rectangular limit plate (301) is fixedly connected to a guide rod (302), the upper end surface of the guide rod (302) passes through the rectangular guide tube (201) and is fixedly connected to a threaded connector (303), and the outer wall of the threaded connector (303) is threadedly connected to the inner wall of the bracket top plate (4). 6. A combined shock-absorbing bracket special-shaped spring according to claim 5, characterized in that: the bracket top plate (4) includes a second circular plate (401), the lower surface of the second circular plate (401) is provided with a threaded connection hole (402), and the second circular plate (401) is evenly provided with a plurality of third mounting holes (403) that penetrate the second circular plate (401), and the plurality of third mounting holes (403) are arranged in a circle around the threaded connection hole (402). 7. A combined shock-absorbing bracket special-shaped spring according to claim 6, characterized in that: a first limiting ring (7) is fixedly connected to the upper surface of the first circular plate (101), and the bottom of the tower-shaped spring (5) is located inside the first limiting ring (7); a second limiting ring (8) is fixedly connected to the lower surface of the second circular plate (401), and the top of the tower-shaped spring (5) is located inside the second limiting ring (8).