CN220589460U - Piston type compressor gas purifying device - Google Patents

Abstract

The utility model discloses a piston compressor gas purification device which comprises a piston compressor body and a conveying bent pipe, wherein the conveying bent pipe is installed and connected on a discharge pipeline of the piston compressor body, a valve conveying pipe is arranged at the outer end of the conveying bent pipe, a first purification tank body is arranged at the outer end of the valve conveying pipe, a second purification tank body is arranged at the outer end of the first purification tank body, a third purification tank body is arranged at the outer end of the second purification tank body, a gas detector is arranged at the outer side of the third purification tank body, a discharge control valve is arranged at the outer end of the third purification tank body, and a recovery purification pipeline is arranged between the valve conveying pipe and the third purification tank body. The piston type compressor gas purifying device disclosed by the utility model has a purified gas recycling structure, and can effectively detect discharged gas, so that the discharged gas can reach the technical effect of discharge standard.

Description

Piston type compressor gas purifying device

Technical Field

The utility model relates to the field of piston compressors, in particular to a piston compressor gas purifying device.

Background

The piston compressor mainly comprises a machine body, a crankshaft, a connecting rod, a piston group, a valve, a shaft seal, an oil pump, an energy adjusting device, an oil circulating system and the like, and when the piston compressor is used, in order to ensure the cleanliness of the whole compressed gas, the gas purifying device of the piston compressor is needed.

The piston compressor gas purification device in the prior art is composed of a conveying pipeline, a control valve and a purification tank body, wherein the conveying pipeline receives gas generated by the piston compressor, and when the control valve is opened, the gas can be purified through the purification tank body.

However, when the piston compressor gas purifying device purifies gas, the gas quality in a pipeline cannot be effectively detected, so that whether the gas emission reaches the standard cannot be determined, and the problem of secondary recovery and purification cannot be solved.

Disclosure of Invention

The utility model discloses a piston compressor gas purifying device, and aims to solve the technical problems that when the piston compressor gas purifying device purifies gas, the gas quality in a pipeline cannot be effectively detected, so that whether the gas emission reaches the standard cannot be determined, and the gas cannot be recycled and purified secondarily.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a piston compressor gas purification device, includes piston compressor organism and conveying return bend, conveying return bend erection joint is on the exhaust line of piston compressor organism, the outer end of conveying return bend is provided with the valve conveyer pipe, the outer end of valve conveyer pipe is provided with first purification jar body, the outer end of first purification jar body is provided with the second purification jar body, the outer end of the second purification jar body is provided with the third purification jar body, the outside of the third purification jar body is provided with gas detector, the outer end of the third purification jar body is provided with emission control valve, be provided with recovery purification pipeline between valve conveyer pipe and the third purification jar body, gas detector, emission control valve and recovery purification pipeline and external controller electric connection.

Through being provided with and carrying the return bend structure, the gaseous conveying of piston compressor organism exhaust is in the valve conveyer pipe through carrying the return bend like this, then carry the purification treatment in the first purification jar body through the valve conveyer pipe, the second purification jar body and the third purification jar body, and then through the gas detector on the third purification jar body, thereby effectively detect, when detecting qualified, emission control valve then opens the gaseous after emission purification, and when detecting unqualified, emission control valve is closed, retrieve and purify the pipeline and then open, make the gaseous after purifying carry the valve conveyer pipe again, then carry out purification treatment through the first purification jar body, the second purification jar body and the third purification jar body, and holistic recovery purification treatment, thereby can ensure the qualification of emission.

In a preferred scheme, retrieve the purification pipeline and include retrieving one-way solenoid valve, retrieve pipeline and receiving pipeline, receiving pipeline's left end is provided with retrieves one-way solenoid valve, retrieving one-way solenoid valve's left end is provided with retrieves the pipeline, retrieve the pipeline and connect on the valve conveyer pipe, receiving pipeline connects on the third purification tank body.

Through being provided with receipts purification pipeline structure to can retrieve the gas after the purification and carry out secondary purification.

In a preferred scheme, the first purification tank body comprises a bottom receiving pipe, a purification tank body, a top discharge pipe and an outer side connecting bent pipe, the bottom receiving pipe is arranged at the lower end of the purification tank body, the top discharge pipe is arranged at the upper end of the purification tank body, the outer side connecting bent pipe is arranged at the outer end of the top discharge pipe, the outer side connecting bent pipe is connected to the second purification tank body, and the bottom receiving pipe is connected to the valve conveying pipe.

Through being provided with first purification tank structure to can purification treatment.

In a preferred scheme, the valve conveyer pipe includes through-hole violently pipe, through-hole standpipe and solenoid valve pipe, the lower extreme of solenoid valve pipe is provided with the through-hole standpipe, the lower extreme of through-hole standpipe is provided with the through-hole and violently manages, the through-hole is violently managed and is connected on first purification tank, solenoid valve union coupling is on carrying the return bend.

The valve conveying pipe structure is arranged, so that conveying and use are facilitated.

In a preferred embodiment, the delivery elbow comprises a curved conduit and a support riser, the outer end of the support riser being provided with a curved conduit, the support riser being connected to the piston compressor block, the curved conduit being connected to the valve delivery conduit.

Through being provided with and carrying the return bend structure to can connect and carry the use.

In a preferred embodiment, the first purification tank, the second purification tank and the third purification tank are identical in structure.

Through being provided with first purification tank body, second purification tank body and third purification tank body structure to can three purification treatment.

In a preferred scheme, the recovery purification pipeline is welded on the valve conveying pipe and the third purification tank body, and the connection part is communicated.

Through being provided with recovery purification pipeline structure to can receive the gaseous of the purification of third purification jar body, and carry the valve conveyer pipe in the secondary treatment of carrying out afterwards.

From the above, a piston compressor gas purification device, including piston compressor organism and conveying return bend, conveying return bend installation is connected on the exhaust line of piston compressor organism, the outer end of conveying the return bend is provided with the valve conveyer pipe, the outer end of valve conveyer pipe is provided with first purification jar body, the outer end of first purification jar body is provided with the second purification jar body, the outer end of the second purification jar body is provided with the third purification jar body, the outside of the third purification jar body is provided with gas detector, the outer end of the third purification jar body is provided with emission control valve, be provided with recovery purification pipeline between valve conveyer pipe and the third purification jar body, gas detector, emission control valve and recovery purification pipeline and external controller electric connection. The piston type compressor gas purifying device provided by the utility model has a purified gas recycling structure, and can effectively detect the discharged gas, so that the discharged gas can reach the technical effect of discharge standard.

Drawings

Fig. 1 is a schematic perspective view of a piston compressor gas purifying device according to the present utility model.

Fig. 2 is a schematic diagram of a recovery and purification pipeline of a piston compressor gas purification device according to the present utility model.

Fig. 3 is a schematic diagram of a first purifying tank of a piston compressor gas purifying device according to the present utility model.

Fig. 4 is a schematic diagram of a valve delivery pipe of a piston compressor gas purifying device according to the present utility model.

Fig. 5 is a schematic diagram of a conveying elbow of a gas purifying device for a piston compressor according to the present utility model.

In the accompanying drawings: 1. a piston compressor body; 2. a conveying elbow; 21. bending the pipe; 22. a support riser; 3. a valve delivery tube; 31. a through hole transverse tube; 32. a through hole standpipe; 33. an electromagnetic valve tube; 4. a first purification tank; 41. a bottom receiving tube; 42. purifying the tank body; 43. a top discharge pipe; 44. the outer side is connected with an elbow; 5. a second purification tank; 6. a third purification tank; 7. a gas detector; 8. a discharge control valve; 9. recovering and purifying pipelines; 91. recovering the one-way electromagnetic valve; 92. a recovery pipe; 93. a receiving conduit.

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.

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Referring to fig. 1-5, a piston compressor gas purifying device comprises a piston compressor body 1 and a conveying bent pipe 2, wherein the conveying bent pipe 2 is installed and connected on a discharge pipeline of the piston compressor body 1, the outer end of the conveying bent pipe 2 is provided with a valve conveying pipe 3, the outer end of the valve conveying pipe 3 is provided with a first purifying tank body 4, the outer end of the first purifying tank body 4 is provided with a second purifying tank body 5, the outer end of the second purifying tank body 5 is provided with a third purifying tank body 6, the outer side of the third purifying tank body 6 is provided with a gas detector 7, the outer end of the third purifying tank body 6 is provided with a discharge control valve 8, a recovery purifying pipeline 9 is arranged between the valve conveying pipe 3 and the third purifying tank body 6, the gas detector 7, the discharge control valve 8 and the recovery purifying pipeline 9 are electrically connected with an external controller, when the gas purifying device is used, gas discharged by the piston compressor body 1 is conveyed into the valve conveying pipe 3 through the conveying bent pipe 2, then conveyed into the first purifying tank body 4, the second purifying tank body 5 and the third purifying tank body 6 through the valve conveying pipe 3 for purifying treatment, and then passed through the gas detector 7 on the third purifying tank body 6, so that the gas purifying device effectively detects, when the gas purifying device is qualified in detection, the gas after purifying is opened by the discharge control valve 8, when the gas purifying device is unqualified in detection, the discharge control valve 8 is closed, the recovery purifying pipe 9 is opened, so that the purified gas is conveyed into the valve conveying pipe 3 again, and then purified treatment is carried out through the first purifying tank body 4, the second purifying tank body 5 and the third purifying tank body 6 until the gas purifying device is qualified in detection, and the whole recovery purifying treatment is carried out, so that the discharging qualification can be ensured.

Referring to fig. 1 and 2, in a preferred embodiment, the recovery purification pipe 9 includes a recovery one-way solenoid valve 91, a recovery pipe 92 and a receiving pipe 93, the recovery one-way solenoid valve 91 is provided at the left end of the receiving pipe 93, the recovery pipe 92 is provided at the left end of the recovery one-way solenoid valve 91, the recovery pipe 92 is connected to the valve delivery pipe 3, the receiving pipe 93 is connected to the third purification tank 6, the recovery pipe 92 of the recovery purification pipe 9 is connected to the valve delivery pipe 3, and the receiving pipe 93 is connected to the third purification tank 6, so that when the recovery one-way solenoid valve 91 is opened, gas in the third purification tank 6 is passed through the recovery one-way solenoid valve 91 on the receiving pipe 93, so that the gas can be unidirectionally delivered to the recovery pipe 92, and then passed through the recovery pipe 92, so that the valve delivery pipe 3 is closed, so that the delivered gas can be purified only through the first purification tank 4, the second purification tank 5 and the third purification tank 6, so that the discharged qualification can be ensured.

Referring to fig. 1 and 3, in a preferred embodiment, the first purification tank 4 includes a bottom receiving pipe 41, a purification tank 42, a top discharging pipe 43, and an outer connecting elbow 44, the bottom of the purification tank 42 is provided with the bottom receiving pipe 41, the upper end of the purification tank 42 is provided with the top discharging pipe 43, the outer end of the top discharging pipe 43 is provided with the outer connecting elbow 44, the outer connecting elbow 44 is connected to the second purification tank 5, the bottom receiving pipe 41 is connected to the valve conveying pipe 3, the bottom receiving pipe 41 of the first purification tank 4 is welded to the valve conveying pipe 3, so that the gas of the valve conveying pipe 3 can be conveyed into the purification tank 42 through the bottom receiving pipe 41, then can be effectively purified through the purification tank 42, the purified gas can be conveyed into the outer connecting elbow 44 through the top discharging pipe 43, and then can be conveyed into the second purification tank 5 through the outer connecting elbow 44.

Referring to fig. 1 and 4, in a preferred embodiment, the valve delivery pipe 3 includes a through-hole cross pipe 31, a through-hole standpipe 32, and a solenoid valve pipe 33, the through-hole standpipe 32 is provided at the lower end of the solenoid valve pipe 33, the through-hole cross pipe 31 is provided at the lower end of the through-hole standpipe 32, the through-hole cross pipe 31 is connected to the first purification tank 4, the solenoid valve pipe 33 is connected to the delivery elbow 2, the solenoid valve pipe 33 of the valve delivery pipe 3 is connected to the delivery elbow 2, so that when the passage of the solenoid valve pipe 33 is opened, air delivered from the delivery elbow 2 can be delivered to the through-hole standpipe 32 through the solenoid valve pipe 33, and then can be delivered to the through-hole cross pipe 31 through the through-hole standpipe 32, and thus can be delivered to the first purification tank 4 for purification treatment through the through-hole cross pipe 31.

Referring to fig. 1 and 5, in a preferred embodiment, the delivery elbow 2 includes a curved pipe 21 and a support riser 22, the outer end of the support riser 22 is provided with the curved pipe 21, the support riser 22 is connected to the piston compressor block 1, the curved pipe 21 is connected to the valve delivery pipe 3, and the support riser 22 of the delivery elbow 2 is connected to the piston compressor block 1, so that gas delivered from the piston compressor block 1 can be delivered into the curved pipe 21 through the support riser 22 and then delivered into the valve delivery pipe 3 through the curved pipe 21.

Referring to fig. 1, in a preferred embodiment, the first, second and third purification tanks 4, 5 and 6 are identical in structure, thus facilitating the use of three purification processes.

Referring to fig. 1, in a preferred embodiment, the recovery and purification pipe 9 is welded to the valve delivery pipe 3 and the third purification tank 6, and the connection is perforated, so that recovery, treatment and purification can be performed.

Working principle: when the gas purifying device is used, gas discharged by the piston compressor body 1 is conveyed into the valve conveying pipe 3 through the conveying bent pipe 2, then conveyed into the first purifying tank body 4, the second purifying tank body 5 and the third purifying tank body 6 through the valve conveying pipe 3 for purifying treatment, and then passed through the gas detector 7 on the third purifying tank body 6, so that the gas purifying device effectively detects, when the gas purifying device is qualified in detection, the gas after purifying is opened by the discharge control valve 8, when the gas purifying device is unqualified in detection, the discharge control valve 8 is closed, the recovery purifying pipe 9 is opened, so that the purified gas is conveyed into the valve conveying pipe 3 again, and then purified treatment is carried out through the first purifying tank body 4, the second purifying tank body 5 and the third purifying tank body 6 until the gas purifying device is qualified in detection, and the whole recovery purifying treatment is carried out, so that the discharging qualification can be ensured.

The above description is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto. The substitutions may be partial structures, devices, or method steps, or may be a complete solution. The technical proposal and the utility model concept are equivalent to or changed in accordance with the utility model, and the utility model is covered in the protection scope of the utility model.

Claims (7)

1. The utility model provides a piston compressor gas purification device, includes piston compressor organism (1) and carries return bend (2), its characterized in that, carry return bend (2) install and connect on the exhaust line of piston compressor organism (1), the outer end of carrying return bend (2) is provided with valve conveyer pipe (3), the outer end of valve conveyer pipe (3) is provided with first purification jar body (4), the outer end of first purification jar body (4) is provided with second purification jar body (5), the outer end of second purification jar body (5) is provided with third purification jar body (6), the outside of third purification jar body (6) is provided with gas detector (7), the outer end of third purification jar body (6) is provided with emission control valve (8), be provided with between valve conveyer pipe (3) and the third purification jar body (6) and retrieve purification pipeline (9), gas detector (7), emission control valve (8) and retrieve purification pipeline (9) and external control ware electric connection.

2. The piston compressor gas purification device according to claim 1, wherein the recovery purification pipeline (9) comprises a recovery one-way electromagnetic valve (91), a recovery pipeline (92) and a receiving pipeline (93), the left end of the receiving pipeline (93) is provided with the recovery one-way electromagnetic valve (91), the left end of the recovery one-way electromagnetic valve (91) is provided with the recovery pipeline (92), the recovery pipeline (92) is connected to the valve conveying pipe (3), and the receiving pipeline (93) is connected to the third purification tank (6).

3. The piston compressor gas purification device according to claim 1, wherein the first purification tank (4) comprises a bottom receiving pipe (41), a purification tank (42), a top discharge pipe (43) and an outer connecting elbow pipe (44), the lower end of the purification tank (42) is provided with the bottom receiving pipe (41), the upper end of the purification tank (42) is provided with the top discharge pipe (43), the outer end of the top discharge pipe (43) is provided with the outer connecting elbow pipe (44), the outer connecting elbow pipe (44) is connected to the second purification tank (5), and the bottom receiving pipe (41) is connected to the valve conveying pipe (3).

4. A piston compressor gas cleaning device according to claim 1, characterized in that the valve delivery pipe (3) comprises a through-hole cross pipe (31), a through-hole vertical pipe (32) and an electromagnetic valve pipe (33), the lower end of the electromagnetic valve pipe (33) is provided with the through-hole vertical pipe (32), the lower end of the through-hole vertical pipe (32) is provided with the through-hole cross pipe (31), the through-hole cross pipe (31) is connected to the first cleaning tank (4), and the electromagnetic valve pipe (33) is connected to the delivery elbow (2).

5. A piston compressor gas cleaning device according to claim 1, characterized in that the conveying elbow (2) comprises a curved pipe (21) and a supporting riser (22), the outer end of the supporting riser (22) is provided with a curved pipe (21), the supporting riser (22) is connected to the piston compressor body (1), and the curved pipe (21) is connected to the valve conveying pipe (3).

6. A piston compressor gas cleaning device according to claim 1, characterized in that the first cleaning tank (4), the second cleaning tank (5) and the third cleaning tank (6) are of identical construction.

7. A piston compressor gas cleaning device according to claim 1, characterized in that the recovery and cleaning pipe (9) is welded to the valve delivery pipe (3) and the third cleaning tank (6) and the connection is through.