CN222459200U - Chemical material buffer tank - Google Patents

Abstract

The utility model provides a chemical material buffer tank, which belongs to the technical field of material tanks, and comprises a support frame and a tank body, wherein three support legs are evenly arranged on the bottom surface of the support frame, first springs are arranged on both sides inside the support legs, a movable column is fixed on the upper end of the first spring, a first damping rod is arranged at the center of the first spring, an output end of the first damping rod is fixed on the lower surface of the movable column, a connecting column is arranged at the center of one side of the movable column, a through groove is opened on the surface of the support leg and corresponds to the position of the connecting column, the connecting column is slidably arranged in the through groove on the surface of the support leg, a support platform is fixed on the end of the connecting column, the tank body is arranged at the center of the upper surface of the support platform, and a horizontal buffer component is arranged on the inner wall of the support frame; the utility model can improve the seismic performance of the buffer tank and improve the safety of the buffer tank.

Description

Chemical material buffer tank

Technical Field

The utility model relates to the technical field of material tanks, in particular to a chemical material buffer tank.

Background

The buffer tank is mainly used for buffering pressure fluctuation of a system in various systems, so that the system works more stably, the principle is realized by compressing air in the compression tank, the buffer tank is widely applied to water supply equipment, a central air conditioning system and the like, and the buffer tank is structurally provided with a diaphragm type buffer tank and a diaphragm type air conditioning system, wherein the diaphragm type buffer tank and the diaphragm type air conditioning system are gradually faded out of the market due to easy rusting of a tank body, and water seepage is avoided, so that the buffer tank is beneficial to supply;

However, the existing buffer tank does not have an anti-seismic function, and the buffer tank is possibly damaged due to the fact that the internal pressure is large, so that the safety is poor.

Disclosure of utility model

In view of the above, the utility model provides a chemical material buffer tank, which can improve the shock resistance and the safety of the buffer tank.

In order to solve the technical problems, the utility model provides a chemical material buffer tank, which comprises a support frame and a tank body, wherein three support legs are uniformly arranged on the bottom surface of the support frame, first springs are arranged on two sides of the inside of the support legs, movable columns are fixed at the upper ends of the first springs, first damping rods are arranged at the centers of the first springs, the output ends of the first damping rods are fixed on the lower surfaces of the movable columns, connecting columns are arranged at the centers of one sides of the movable columns, through grooves are correspondingly formed in the surfaces of the support legs, the connecting columns are slidably arranged in the through grooves on the surfaces of the support legs, support tables are fixed at the ends of the connecting columns, the tank body is arranged at the center of the upper surface of the support table, horizontal buffer components are arranged on the inner walls of the support frame, workers place the tank body at the center of the upper surface of the support table, when the tank body vibrates, the tank body descends to drive the support tables to descend synchronously, the support tables and the movable columns drive the output ends of the first damping rods to descend synchronously, and the damping rods and the first springs slowly vibrate to the tank body after the vibration ends, so that the first springs drive the first springs to slowly vibrate to drive the first damping rods to reset the first damping rods, so that the safety of the buffer tank is improved.

The spout has all been seted up to two inside walls of supporting leg, and movable column both sides are provided with the slider, and the slider slides and sets up in the spout of supporting leg inner wall, and the slider prevents that the movable column is crooked, improves movable column removal process stability.

Limiting grooves are formed in the surface of the supporting table, limiting grooves can limit the bottom of the tank body, and stability of the tank body on the supporting table is improved.

The horizontal buffering subassembly is including evenly setting up at the three fixed column of support frame inner wall, and the fixed column tip is provided with the erection column, and the spacing groove has been seted up to the inside both sides of erection column, is provided with the second spring in the spacing groove, and the tip of second spring is provided with the connecting rod, and the connecting rod runs through the opening part of buffer tank, and buffer tank open-ended cross section and the cross section looks adaptation of connecting rod, the connecting rod tip is provided with splint, and when the jar body appears rocking, the splint that drive jar body and rock the direction moves to erection column inside direction, and splint drive connecting rod synchronous movement, connecting rod compression second spring to cushion antidetonation to jar body horizontal direction, further improve the cushioning properties.

The center of second spring runs through and is provided with the second damping pole, and the output of second damping pole is fixed at connecting rod tip center, and the second damping pole can make second spring motion process more stable, offsets the rocking that appears when the second spring is kick-backed.

The rubber pad is arranged on the surface of the clamping plate and faces one side of the tank body, the surface of the rubber pad is provided with the groove, the rubber pad can prevent the tank body from being damaged, and the groove can improve the limiting effect on the tank body.

In summary, compared with the prior art, the application has at least one of the following beneficial technical effects:

1. when the vibration damping device is used, a worker places the tank body in the center of the upper surface of the supporting table, when the tank body vibrates, the tank body descends to drive the supporting table to synchronously descend, the supporting table drives the connecting column and the movable column to synchronously descend, the movable column drives the output end of the first damping rod to recover and descend, the damping rod and the first spring simultaneously perform damping on the vibration of the tank body, and when the vibration is finished, the first spring drives the first damping rod to slowly reset, so that the vibration resistance of the buffer tank is improved, and the safety of the buffer tank is improved.

2. When the movable column is used, the sliding block prevents the movable column from being inclined, and the stability of the movable column in the moving process is improved.

3. When the tank body shakes, the clamping plates in the shaking direction of the tank body are driven to move towards the inner direction of the connecting column, the connecting rods are driven by the clamping plates to synchronously move, and the connecting rods compress the second springs, so that the tank body is buffered and shock-resistant in the horizontal direction, and the buffering performance is further improved.

4. When the damping device is used, the second damping rod can enable the movement process of the second spring to be more stable, and the shaking generated when the second spring rebounds is counteracted.

Drawings

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

FIG. 2 is a cross-sectional view of the internal structure of the support leg of the present utility model;

fig. 3 is an interior top cross-sectional view of the horizontal cushioning assembly of the present utility model.

The reference numerals are 100, a supporting frame, 200, supporting legs, 201, a first spring, 202, a movable column, 203, a first damping rod, 204, a connecting column, 205, a supporting table, 206, a limit groove, 207, a sliding block, 300, a tank body, 400, a horizontal buffer component, 401, a fixed column, 402, a mounting column, 403, a buffer groove, 404, a second spring, 405, a connecting rod, 406, a clamping plate, 407, a rubber pad, 408 and a second damping rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to fig. 1 to 3 of the embodiments of the present utility model. It will be apparent that the described embodiments are some, but not all, embodiments of the utility model. All other embodiments, which are obtained by a person skilled in the art based on the described embodiments of the utility model, fall within the scope of protection of the utility model.

According to one embodiment of the utility model, as shown in fig. 1 and 2, the embodiment provides a chemical material buffer tank, which comprises a support frame 100 and a tank body 300, wherein three support legs 200 are uniformly arranged on the bottom surface of the support frame 100, first springs 201 are arranged on two sides inside the support legs 200, movable columns 202 are fixed at the upper ends of the first springs 201, first damping rods 203 are arranged at the centers of the first springs 201, the output ends of the first damping rods 203 are fixed on the lower surfaces of the movable columns 202, connecting columns 204 are arranged at the centers of one sides of the movable columns 202, through grooves are formed in the surfaces of the support legs 200 and correspond to the positions of the connecting columns 204, the connecting columns 204 are slidably arranged in the through grooves in the surfaces of the support legs 200, support tables 205 are fixed at the ends of the connecting columns 204, the tank bodies 300 are arranged at the centers of the upper surfaces of the support tables 205, horizontal buffer assemblies 400 are arranged on the inner walls of the support frame 100, staff place the tank bodies 300 at the centers of the upper surfaces of the support tables 205, when the tank bodies 300 vibrate, the tank bodies 300 descend to enable the support tables 205 to be driven to synchronously descend, the support tables 205 are driven to be driven to synchronously, the support tables 205 are driven to synchronously descend, the support columns 205 and the movable columns 202 are driven to synchronously descend, the movable columns 202 are synchronously descend, through the connecting columns 202 are driven to be synchronously, through the movable columns 202 are driven to be synchronously down and the movable columns 203, the first damping rods 203 are driven to be slowly and the output by the first damping rods 203, and the first vibration rods are driven to be slowly, and the vibration rods are slowly and the vibration rods are recovered, and the vibration can are slowly can be recovered, and the vibration and can be slowly and can be recovered; sliding grooves are formed on two inner side walls of the supporting leg 200, sliding blocks 207 are arranged on two sides of the movable column 202, the sliding blocks 207 are arranged in the sliding grooves on the inner wall of the supporting leg 200 in a sliding manner, the sliding blocks 207 prevent the movable column 202 from being inclined, the stability of the movable column 202 in the moving process is improved, limiting grooves 206 are formed on the surface of the supporting table 205, limiting grooves 206 can limit the bottom of the tank 300, improving stability of can 300 on support 205

According to another embodiment of the present utility model, as shown in fig. 1 and 3, the horizontal buffering component 400 includes three fixing columns 401 uniformly arranged on the inner wall of the supporting frame 100, the end parts of the fixing columns 401 are provided with mounting columns 402, two sides of the inside of the mounting columns 402 are provided with limiting grooves 206, a second spring 404 is arranged in each limiting groove 206, the end parts of the second springs 404 are provided with connecting rods 405, the connecting rods 405 penetrate through the openings of the buffering grooves 403, the cross sections of the openings of the buffering grooves 403 are matched with the cross sections of the connecting rods 405, the end parts of the connecting rods 405 are provided with clamping plates 406, when the tank 300 shakes, the clamping plates 406 in the shaking direction of the tank 300 are driven to move towards the inside of the mounting columns 402, the clamping plates 406 drive the connecting rods 405 to synchronously move, and the connecting rods 405 compress the second springs 404, so that the horizontal direction of the tank 300 is buffered and the buffering performance is further improved; the center of the second spring 404 is provided with a second damping rod 408 in a penetrating mode, the output end of the second damping rod 408 is fixed at the center of the end portion of the connecting rod 405, the second damping rod 408 can enable the second spring 404 to move more stably to counteract shaking when the second spring 404 rebounds, a rubber pad 407 is arranged on the surface of the clamping plate 406 and on one side, facing the tank body 300, of the clamping plate, a groove is formed in the surface of the rubber pad 407, the tank body 300 can be prevented from being damaged by the rubber pad 407, and the limiting effect on the tank body 300 can be improved by the groove.

The application method of the utility model comprises the following steps:

The staff places jar body 300 at brace table 205 upper surface center, when jar body 300 appears shaking, jar body 300 descends and makes to drive brace table 205 and descend in step, brace table 205 drives spliced pole 204 and movable column 202 and descends in step, make movable column 202 drive the output of first damping pole 203 retrieve and descend, damping pole and first spring 201 simultaneously carry out the bradyseism to the vibrations that jar body 300 appears, first spring 201 drives the slow reset of first damping pole 203 after the vibrations are finished to improve the shock resistance of buffer tank, improve buffer tank security.

While the foregoing is directed to the preferred embodiments of the present utility model, it will be appreciated by those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present utility model, and such modifications and adaptations are intended to be comprehended within the scope of the present utility model.

Claims (6)

1. A chemical material buffer tank comprises a support frame (100) and a tank body (300) and is characterized in that three support legs (200) are uniformly arranged on the bottom surface of the support frame (100), first springs (201) are arranged on two sides of the inner portion of each support leg (200), movable columns (202) are fixed at the upper ends of the first springs (201), first damping rods (203) are arranged at the centers of the first springs (201), the output ends of the first damping rods (203) are fixed on the lower surfaces of the movable columns (202), connecting columns (204) are arranged at the centers of one sides of the movable columns (202), through grooves are formed in the surfaces of the support legs (200) and correspond to the positions of the connecting columns (204), the connecting columns (204) are slidably arranged in the through grooves in the surfaces of the support legs (200), supporting tables (205) are fixed at the end portions of the connecting columns (204), the tank body (300) is arranged at the centers of the upper surfaces of the supporting tables (205), and horizontal buffer components (400) are arranged on the inner walls of the support frame (100).

2. The chemical buffer tank of claim 1, wherein both inner side walls of the supporting leg (200) are provided with sliding grooves, both sides of the movable column (202) are provided with sliding blocks (207), and the sliding blocks (207) are slidably arranged in the sliding grooves of the inner wall of the supporting leg (200).

3. A chemical buffer tank as claimed in claim 1, wherein the surface of said support (205) is provided with a limit groove (206).

4. The chemical material buffer tank of claim 1, wherein the horizontal buffer assembly (400) comprises three fixing columns (401) uniformly arranged on the inner wall of the support frame (100), the end parts of the fixing columns (401) are provided with mounting columns (402), limit grooves (206) are formed in two sides of the inside of each mounting column (402), second springs (404) are arranged in the limit grooves (206), connecting rods (405) are arranged at the end parts of the second springs (404), the connecting rods (405) penetrate through openings of the buffer grooves (403), the cross sections of the openings of the buffer grooves (403) are matched with the cross sections of the connecting rods (405), and clamping plates (406) are arranged at the end parts of the connecting rods (405).

5. A chemical buffer tank as claimed in claim 4, wherein the centre of said second spring (404) is provided with a second damping rod (408) extending therethrough, the output end of the second damping rod (408) being fixed to the centre of the end of the connecting rod (405).

6. A chemical buffer tank as claimed in claim 4, wherein a rubber pad (407) is provided on the surface of said clamping plate (406) and on the side facing the tank body (300), and a recess is provided on the surface of said rubber pad (407).