KR101290772B1 - Grease storage and supply apparatus - Google Patents

Abstract

The present invention relates to a grease storage and supply device, and more specifically, to grease can be supplied to the outside using compressed air together with the grease storage, and the grease storage can be smoothly discharged even when the grease viscosity is low due to low atmospheric temperature. And a feeder.
The grease storage and supply device of the present invention comprises: a cylindrical housing; A storage pack installed inside the housing and formed of a stretchable material and capable of storing grease therein, and supported by the housing, one end of which is received inside the storage pack and the other end of which extends to the outside of the housing, A grease discharge pipe having a flow path communicating the inside of the storage pack and the outside of the housing, and supplying compressed air to the inside of the housing to shrink the storage pack, thereby transferring the grease stored in the storage pack to the outside through the flow path of the grease discharge pipe. It has a pneumatic supply part to discharge.

Description

Grease storage and supply apparatus

The present invention relates to a grease storage and supply device, and more specifically, to grease can be supplied to the outside using compressed air together with the grease storage, and the grease storage can be smoothly discharged even when the grease viscosity is low due to low atmospheric temperature. And a feeder.

In general, grease is a sticky lubricating oil mixed with mineral oils and soaps, and turns into a liquid when the temperature rises, and it is inconvenient to supply oil, high temperature, high surface pressure and low pressure. It is a lubricant that is often used in places, rolling bearings and the like.

Most mechanical equipment uses a lot of semi-solid lubricant grease to reduce the frictional resistance because there are many parts which are rotated or moved before and after mechanical contact.

Conventionally, in order to supply grease to machinery, grease contained in cans was injected into a pump, and a pump was operated by manual operation. This conventional grease injection method has a problem in that a lot of manpower is consumed in the grease supply.

In order to improve the problems of the conventional grease injection method, a method of supplying grease to a pump by inserting grease into a large container and inserting a pump into the grease is used.

However, the method of supplying grease to a large container and supplying grease by injecting a pump into the grease is difficult to control to discharge the grease contained in the container in an appropriate amount, and there is a problem in that the pumping is not smooth due to the high viscosity of the grease.

In addition, since the grease remains attached to the wall of the container due to its high viscosity, there is a problem in that the grease should be discarded while remaining in the container. In particular, in the winter or at low temperatures, grease becomes more viscous, requiring large amounts of grease to be discarded as it is, resulting in waste of resources and environmental pollution.

The present invention has been made to solve the above problems, and by storing the grease in a flexible storage pack, it is possible to easily control the amount of grease discharged by using the compressed air and to handle and discharge the grease even when the air temperature is low. The object is to provide a grease storage and supply device that is smooth and can minimize residual grease in the vessel.

The grease storage and supply device of the present invention for achieving the above object is a cylindrical housing; A storage pack installed in the housing and formed of a stretchable material and capable of storing grease therein; A grease discharge tube supported by the housing, one end of which is accommodated in the storage pack and the other end of which extends to be exposed to the outside of the housing, and has a flow path communicating the inside of the storage pack with the outside of the housing; And a pneumatic supply unit for supplying compressed air into the housing to shrink the storage pack to discharge the grease stored in the storage pack to the outside through a flow path of the grease discharge pipe.

The grease discharge pipe is formed along the longitudinal direction on the outer circumferential surface corresponding to the inside of the storage pack so that the surrounding grease can be guided to the inlet of the flow path is characterized in that the guide portion in contact with the inlet of the flow path.

Heating means installed in the housing and supplying heat into the housing; And an incompressible heat exchange medium which is accommodated in the housing to transfer pressure and heat applied to the inside of the housing to the storage pack.

The heating means includes a jacket formed on the outer surface of the housing, a heater installed inside the jacket to generate heat, and a contact member formed on the inner surface of the housing to increase a contact area with the heat exchange medium. It is characterized by including.

The housing is open at the top, the storage pack and the heat exchange medium are accommodated therein, the jacket is formed on the side and the bottom, and the contact member is formed at equal intervals on the inner side, and the compressed air supply pipe extending from the pneumatic supply is the side. A casing connected to an upper part, a cover mounted at an open upper part of the casing, and a cover to which an air outlet pipe is connected so that the grease discharge pipe penetrates and allows air inside the casing to flow out; It is coupled to the grease discharge pipe and screwed characterized in that it comprises a fixing member for fixing the grease discharge pipe to the cover.

As described above, according to the present invention, by storing the grease in a storage pack made of a stretchable rubber material, the grease stored in the storage pack can be appropriately supplied to the outside by the required amount.

In addition, since the storage pack itself is shrinkable, it is possible to reduce the amount of residual grease compared to the storage container made of hard material.

In particular, when the viscosity of the grease increases, such as in winter, a heating means is provided to lower the viscosity of the grease, so that the grease can be easily handled and the amount of remaining grease remaining in the storage pack can be minimized. Contamination can be prevented.

1 is a cross-sectional view showing a grease storage and supply apparatus according to an embodiment of the present invention;
2 is a cross-sectional view showing a state of use of FIG.
3 is a perspective view of the main portion of Figure 1,
4 is a perspective view illustrating a lower portion of the grease discharge pipe applied to FIG. 3.

Hereinafter, a grease storage and supply apparatus according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail.

1 to 3, the grease storage and supply device 10 according to an embodiment of the present invention includes a housing 20, a storage pack 30, a grease discharge tube 40, and a pneumatic supply unit ( 80).

The housing 20 is composed of a casing 21 and a cover 25 coupled to the upper portion of the casing 21.

The casing 21 has a cylindrical structure with an open top. The casing 21 may be formed of various materials, but is preferably formed of a metal material having high thermal conductivity. The storage pack 30 and the heat exchange medium 5 are accommodated in the casing 21.

In addition, the driving wheel 23 may be mounted to the lower portion of the casing 21. The driving wheel 23 is coupled to the casing 21 so as to pivot pivotably to facilitate steering and braking, and a braking part may be further formed. Unlike this, a plurality of support legs (not shown) for supporting the casing 21 may be installed below the casing 21. In addition, although not shown, the side of the casing 21 may be provided with a light transmission window that can look into the inside of the casing (21). In addition, the casing 21 may be provided with a temperature sensor 60 for measuring the temperature of the heat exchange medium (1).

The lid 25 is coupled to the open top of the casing 21. The cover 25 is fixed to the casing 21 using bolts and nuts. The coupling part of the cover 25 and the casing 21 is equipped with a sealing member such as rubber packing to maintain the airtightness inside the housing 20.

The through hole is formed in the center of the cover 25 so that the grease discharge pipe 40 to be described later can pass therethrough. The grease discharge pipe 40 is fixed to the cover by the fixing members 27 and 29 in the state of passing through the through hole of the cover 25.

The fixing members 27 and 29 are formed in a disc shape and are coupled to the upper and lower portions of the cover 25, respectively. For convenience of description, the fixing member 27 coupled to the upper portion of the cover 25 is referred to as an upper fixing member, and the fixing member 29 coupled to the lower portion of the cover 25 is referred to as a lower fixing member. The upper and lower fixing members 27 and 29 are each formed with screw holes at the center thereof so as to be screwed with the grease discharge pipe 40. And the sealing member 28 of the rubber material is installed between the upper fixing member 27 and the cover 25 to maintain the airtight.

The air outlet pipe 7 is connected to one side of the cover 25 to allow air to flow out from the inside of the casing 21. The air outlet pipe 7 is provided with a valve 9 that can open and close the air outlet pipe 7.

The storage pack 30 in which grease 3 is stored therein is formed of a stretchable material to expand and contract like a balloon. For example, the storage pack 30 may be formed of a material such as silicone resin or rubber. A grease inlet is formed at one side of the storage pack 30 so that grease 3 may be injected, and a sealing socket 35 is installed at the grease inlet.

The sealing socket 35 is coupled to the grease discharge pipe 40 inserted into the storage pack 30 through the grease inlet to prevent grease stored in the storage pack from being leaked. The sealing socket 35 may be bonded to the grease discharge pipe 40 or may be coupled to the grease discharge pipe 40 using a separate fixing band.

 The grease discharge pipe 40 is for providing a passage through which the grease 3 stored in the storage pack 30 is discharged to the outside of the housing 20, one end of which is received inside the storage pack 30 and the other end of the cover 25. It extends to penetrate through and to the outside of the housing 20. A flow path 41 is formed inside the grease discharge pipe 40 to communicate the inside of the storage pack 30 with the outside of the housing 20.

The flow path 41 is formed through the center from the lower end to the upper end of the grease discharge pipe 40. Therefore, the inlet of the flow path 41 into which the grease 3 flows is provided at the lower end of the grease discharge pipe 40, and the outlet of the flow path 41 through which the grease 3 is discharged is provided at the top of the grease discharge pipe 40. . The flow passage 41 may be formed to an appropriate diameter in accordance with the discharge of the grease.

The grease discharge pipe 40 has a screw coupling portion 43 formed on an upper side of the storage pack 30 to be screwed with the support member as described above. A thread is formed on the outer circumferential surface of the screw coupling portion 43.

And a guide portion is provided on the lower side of the grease discharge pipe 40 inserted into the storage pack 30. The guide portion is for guiding grease around the grease discharge pipe 40 to the inlet of the flow path 41. For example, the guide part includes a plurality of guide grooves 45.

Guide grooves 45 are formed on the outer circumferential surface of the grease discharge pipe 40 at equal intervals. Each guide groove 45 is formed long in the vertical direction along the longitudinal direction of the grease discharge pipe 40 from the lower end of the grease discharge pipe 40 to a position adjacent to the portion to which the sealing socket 35 is coupled. Each guide groove 45 is formed to contact the inlet of the flow path 41, as shown in FIG.

When the storage pack 30 is contracted by the aforementioned guide part, the grease 3 may move along the guide groove 45 to be easily introduced into the inlet of the flow path 41. In particular, as the grease 3 stored in the storage pack 30 is discharged to the outside, the storage pack 30 is gradually contracted so that even when the storage pack 30 is in contact with the outer circumferential surface of the grease discharge pipe 40. 30 may move along the guide groove 45 to the inlet of the flow path 41, thereby greatly reducing the amount of remaining grease remaining in the storage pack 30 and discarded.

Grease (3) stored in the storage pack 30 is discharged to the outside of the housing 20 through the grease discharge pipe 40 by the pneumatic supply (80).

The pneumatic supply unit 80 supplies compressed air into the housing 20 to shrink the storage pack 30. When the storage pack 30 is contracted by the pressure applied from the outside, the grease 3 stored inside the storage pack 30 is discharged to the outside through the flow path of the grease discharge pipe 40.

For example, the pneumatic supply unit 80 connects the compressor 81 for generating compressed air, and the compressor 81 and the casing 21 of the housing to connect the high pressure compressed air generated from the compressor 81 to the inside of the housing 20. It consists of an air inlet pipe 83 to guide the air inlet pipe 83, the valve 85 is provided to open and close the air inlet pipe 83.

The heating means is installed in the housing 20 to supply heat to the heat exchange medium 5 accommodated in the housing 20. Heat can be transferred to the grease (3) stored in the storage pack 30 by such a heating means to lower the viscosity of the grease (3) in the winter or when the temperature of the air is low to facilitate the discharge of the grease (3).

A jacket 50 formed on the outer side of the housing 20 by the heating means shown, a heater 51 installed inside the jacket 50 to generate heat, and a plurality of the inner side of the housing 20 are formed. And a contact member 55 for increasing the contact area with the heat exchange medium 5.

A plurality of jackets 50 are formed on the outer and bottom surfaces of the casing 21 to provide space for the heater 51 to be mounted. Although not shown, a heat insulating cover may be installed on the outside of the jacket 50. The heater 51 is supplied with electricity to generate heat, and a plurality of heaters 51 are installed inside each jacket 50. Various known heaters can be used in the present invention. For example, a rod-shaped heater in which a heating wire is provided inside the case, a planar heating element of ceramic series, a heater in which nichrome wire is wound in a coil shape, or the like can be used.

In addition, a plurality of contact members 55 are formed inside the housing 20 to increase the contact area with the heat exchange medium 5 to improve heat transfer efficiency. The contact member 55 has a trapezoidal cross section in order to increase the contact area with the heat exchange medium 5. Although not shown, irregularities may be formed on the outer surface of the contact member 55 to further increase the contact area.

The contact member 55 is installed in an area corresponding to the jacket 50. A plurality of contact members 55 are formed on the inner side and the bottom of the casing 21 at equal intervals. The contact member 55 transfers heat generated from the heater 51 to the heat exchange medium 5 accommodated in the casing 21. The contact member 55 is formed of a metal material such as copper having high thermal conductivity.

An incompressible fluid is used as the heat exchange medium 5 which transfers the heat generated by the heating means to the storage pack 30. This is because the heat exchange medium 5 must transfer the pressure applied through the pneumatic supply unit 80 together with the heat transfer to the storage pack 30. Water may be used as the incompressible heat exchange medium 5. The heat exchange medium 5 may transmit heat and pressure to the storage pack 30 at the same time.

The heat exchange medium 5 is accommodated in the casing 21. Therefore, the storage pack 30 in which the grease 3 is stored is immersed in the heat exchange medium 5. The incompressible heat exchange medium 5 may evenly distribute the pressure applied through the pneumatic supply unit 80 throughout the storage pack 30.

The operation of the grease storage and supply device of the present invention described above is briefly described.

The compressor 81 is operated while the valve 85 of the air inlet pipe 83 is opened to introduce high pressure compressed air into the housing 20. When the high pressure compressed air flows into the housing 20, the heat exchange medium 5 pressurizes the storage pack 30. As the storage pack 30 is pressurized, the storage pack 30 contracts as shown in FIG. 2, and the grease 3 is discharged to the outside through the flow passage 41 of the grease discharge pipe 40 by the amount contracted accordingly. do. As such, the present invention can easily control the amount of grease discharged by the required amount using the compressed air.

When power is applied to the heater 51 of the heating means before the discharge of the grease 3, the heat generated from the heater 51 is transferred to the grease 3 stored in the storage pack 30 through the heat exchange medium 5. Delivered. By heat, the grease 3 is changed into a liquid form that is easy to flow due to low viscosity, so that the grease 3 can be easily discharged even in winter.

In addition, when compressed air is continuously applied to the inside of the housing 20 to shrink the storage pack 30 to the end, most of the grease 3 stored in the storage pack 30 can be discharged to the outside to minimize the amount of residual grease that is discarded. You can.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

3: grease 5: heat exchange medium
20: housing 21: casing
25: cover 30: storage pack
40: grease discharge pipe 50: jacket
51: heater 55: contact member
80: pneumatic supply

Claims (5)

delete A cylindrical housing;
A storage pack installed in the housing and formed of a stretchable material and capable of storing grease therein;
A grease discharge tube supported by the housing, one end of which is accommodated in the storage pack and the other end of which extends to be exposed to the outside of the housing, and has a flow path communicating the inside of the storage pack with the outside of the housing;
And a pneumatic supply unit supplying compressed air into the housing to shrink the storage pack to discharge the grease stored in the storage pack to the outside through a channel of the grease discharge pipe.
The grease discharge pipe has a guide portion formed on an outer circumferential surface corresponding to the inside of the storage pack so that the surrounding grease can be guided to the inlet of the flow path,
The guide portion is formed in the outer circumferential surface of the grease discharge pipe vertically long and has a lower grease storage and supply device characterized in that it is provided with a plurality of guide grooves in contact with the inlet of the flow path. 3. The apparatus of claim 2, further comprising: heating means installed in the housing to supply heat into the housing;
And an incompressible heat exchange medium which is accommodated in the housing to transfer pressure and heat applied to the inside of the housing to the storage pack. According to claim 3, wherein the heating means is a jacket formed on the outer surface of the housing, a heater provided in the inside of the jacket to generate heat, and a plurality of the inner surface of the housing is formed in contact with the heat exchange medium Grease storage and supply device comprising a contact member to increase the. According to claim 4, The housing is open at the top, the storage pack and the heat exchange medium is accommodated therein, the jacket is formed on the side and bottom and the inner surface of the contact member is formed at equal intervals extending from the pneumatic supply A cover to which a compressed air supply pipe is connected to an upper side of the casing, and a cover to which an air outlet pipe is connected so that the grease discharge pipe can penetrate and allow air inside the casing to flow out to the outside of the casing; Grease storage and supply apparatus characterized in that it is coupled to the upper and lower portions of the grease discharge pipe and is screwed with a fixing member for fixing the grease discharge pipe to the cover.

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