KR101006479B1 - Hose pump enabling easy control of hose compression power - Google Patents

Abstract

PURPOSE: A hose pump easily performing the fine adjustment of a hose pressing force is provided to minimize the deformation and abrasion of a shoe and to precisely control the interval between the shoe and a rotor. CONSTITUTION: A hose pump comprises a hose, a rotor(40) and a shoe(60). The rotor is rotated by the torque of a motor. The shoe compresses the hose at the end of the rotor. A step inclined face(41) is formed on the end of the rotor. A slide wedge(50) is composed between the rotor and the shoe in order to control the gap of the rotor and the shoe.

Description

HOSE PUMP ENABLING EASY CONTROL OF HOSE COMPRESSION POWER

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hose pump that facilitates fine adjustment of hose crimping force, and more particularly, to a hose pump that can easily finely adjust the height of a TEFLON coated shoe in a shoe type hose pump. will be.

As is known, the hose pump is a metering pump that pumps by using a restoring force restored to its original state after compression and deformation of the hose in the housing. A rotor is provided inside the housing and rotated by the rotational force of the motor, and the shoe is provided at both ends of the rotor. Alternatively, a roller or a shoe mounted on the rotor end as the rotor rotates by the motor or a roller compresses the hose in the housing to push the contents in the hose in the direction of rotation of the rotor, and then by the restoring force of the hose Alternatively, when the hose passed by the roller is restored, vacuum is generated in the hose, and suction is performed, and the pump or pumping is performed because the shoe or roller mounted at the end of the rotor rotated by the motor is repeatedly compressed and pushed out. will be.

A representative example of such a hose pump is Japanese Laid-Open Patent Publication No. 2007-85357 (name of the invention: a peristaltic pump; hereinafter referred to as 'quoting invention'), which is shown in FIGS. 1 and 2, the pump head 31. And a peristaltic pump including drive assemblies 33 and 35, wherein the pump head 31 includes a rotor 313, a pump head body 311, and a hub 318, and the rotor 313 includes a shoe 315. It includes a drive plate 316 having a central portion 314 and a drive shaft 317, the drive shaft 317 is supported by the hub 318 to rotate in the pump head 31 is driven by the hub 318 By connecting the drive assembly (33, 35) and the rotor 313 through the drive assembly 33, 35 drive shaft so that the rotor 313 and the drive assembly (33, 35) is independently supported by the pump head 31 Independent of the 317 is fixed to the pump head 31, the drive shaft 317 is independent of the hub 318, the rotor 313 is outside the hub 318 On the support is configured to receive the bearing 319 to provide a peristaltic pump that allows the exchange of the gearbox and the motor without disassembling the pump head 31 itself.

However, in order to control the degree of suction vacuum and the discharge pressure, the pump head 31 must be disassembled to adjust the distance between the rotor 313 and the shoe 315. For this purpose, the conventional hose pump including the cited invention Accurate adjustment is not only difficult because the gap between the rotor 313 and the shoe 315 is adjusted by simply inserting or removing a plurality of shims between the rotor 313 and the shoe 315. Since the compression and expansion are repeated while rotating, there is a problem that the shim sandwiched between the rotor 313 and the shoe 315 is separated or damaged by impact, friction, or the like.

Japanese Laid-Open Patent Publication No. 2007-85357

An object of the present invention is to solve the problems, high adhesion, low coefficient of friction, heat resistance, high durability and Teflon-coated shoe, preventing the separation and easy to fine-tune the gap between the shoe and the rotor To provide a hose pump configured with a slide wedge to enable.

The present invention provides a hose pump comprising a hose of the inner wall of the housing, a rotor that rotates with the rotational force of the motor in the housing, and a shoe that compresses the hose at the end of the rotor. Is formed, the slide wedge is formed with a stepped inclined surface corresponding to the stepped inclined surface of the rotor to adjust the gap between the rotor and the shoe.

In this way, the present invention constitutes a slide wedge that can be stepped sliding between a Teflon-coated shoe and a rotor that has high non-adhesiveness, low coefficient of friction, and high heat resistance and durability, thereby minimizing shoe deformation and wear and fixing bolts. By simply sliding the slide wedge to raise or lower the steps of the stairs engaged with the side of the finely processed slide wedge and the rotor end, the useful effect of easily adjusting the distance between the shoe and the rotor by the moved step distance have.

1 is a cross-sectional view showing the configuration of the cited invention.
2 is an exploded perspective view showing the structure of the cited invention;
3 is a perspective view illustrating the external appearance of a hose pump according to the present invention;
4, 5 and 6 are exploded perspective views illustrating the configuration of the hose pump according to the present invention.
7 and 8 are cross-sectional views illustrating the configuration of the hose pump according to the present invention.
9 and 10 are cross-sectional views illustrating the operation of the hose pump according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 and 4 show the overall configuration of the hose 30 pump which is easy to finely adjust the compression force of the hose 30 according to the present invention, and the specific embodiment for the fine adjustment of the hose 30 compression force according to the present invention. The overall configuration is illustrated in FIGS. 5 and 6.

As can be seen from this, the present invention is the hose 30 of the inner wall of the housing 20, the rotor 40 and the end of the rotor 40 to rotate by the rotational force of the motor 10 in the housing 20 In the hose 30 pump consisting of a shoe 60 for compressing the hose 30 in

Stepped slope 41 is formed at the end of the rotor 40,

In order to adjust the distance between the rotor 40 and the shoe 60 may be composed of a slide wedge 50 is formed with a stepped inclined surface 51 corresponding to the stepped inclined surface 41 of the rotor 40 on one surface. .

To describe this in more detail for each component, the above-described rotor 40 has a stepped inclined surface 41 is formed of a right-angle step of quantitative right and left of the vertical and horizontal intervals of 1mm at both ends, the stepped slope 41 Fixing piece 42 protrudes and is formed at one end of the), the long hole 43 is formed in the fixing piece 42, the above-described slide wedge 50 is a stepped inclined surface of the rotor 40 on the oblique surface of the trapezoidal cube A stepped inclined surface 51 corresponding to 41 is formed, and a recess penetrating the stepped inclined surface 51 of the slide wedge 50 and a fixing bolt for fixing the slide wedge 50 to the rotor 40 ( 70 is a fixing hole 52 is fixed is formed.

Here, the above-mentioned grooves are formed in the recesses 53 and the lower side of the upper side of the trapezoidal hexahedral slide wedge 50 so that only the slide wedge 50 can be moved between the rotor 40 and the shoe 60. It may be composed of a groove groove 54 formed on the surface.

The fixing bolt 70 through the long hole 43 formed in the fixing piece 42 of the rotor 40 in the state in which the end of the rotor 40 and the slide wedge 50 for each stepped inclined surface (41, 51). ) Is screwed with the fixing hole 52 of the slide wedge 50 is fixed to the slide wedge 50 to the rotor 40, the rotor 40 and the shoe 40 is fixed to the slide wedge 50 at the end as described above 60 is fixed by a fixing bolt 70 penetrating the above-mentioned inclined surface in a state in which the slide wedge 50 is fixed therebetween.

At this time, when the slide wedge 50 is moved to adjust the distance between the rotor 40 and the shoe 60, the shoe 60 also slides the wedge to prevent the slide wedge 50 from moving in the direction of movement. The groove wedge penetrating the stepped inclined surface 51 is formed on the upper side and the lower side of the 50 so that the slide wedge 50 is not interfered with the fixing bolt 70 fixing the rotor 40 and the shoe 60. And move the slide wedge 50, which is provided on the stepped slope 41 of the rotor 40, up or down the stepped slope of the top or bottom along the stepped slope 41 of the rotor 40. Since the distance between the rotor 40 and the shoe 60 occupied by the slide wedge 50 between the rotor 40 and the shoe 60 becomes narrow or wider, fine spacing adjustment is possible, and thus the rotor 40 Because the gap between the shoe and the shoe (60) becomes narrower or wider A long hole 43 in the fixing piece 42 of the rotor 40 during this interval control in the rotor 40 and the fixing bolt 70 for fixing the slide wedge (50) to be moved along it is formed.

In addition, the above-described shoe 60 coupled to the rotor 40 and the slide wedge 50 is adjusted to increase the heat resistance, wear resistance, durability, etc. without affecting the friction and pressure change with the hose 30 according to the gap adjustment. It is coated with Teflon around.

The Teflon coating may be to form a PTFE coating layer 61 coated with polytetrafluoroethylene (PTFE) to minimize the friction with the crimping hose 30 to reduce wear and increase durability. The PTFE coating layer 61 has a high non-adhesiveness that is hardly adhered to almost all materials, is easily separated from a very sticky material, has a low coefficient of friction, and does not change its physical properties even at extremely low temperatures. It can be used at temperature, and it is easy to clean because it doesn't get water or oil on the surface. Especially, it has high heat resistance, so it doesn't decompose at all below 205 ℃, and it can be decomposed at 205 ℃ ~ 290 ℃. There is no need, and it is possible to use intermittently between 290 degreeC-315 degreeC.

Hose 30 pump according to the present invention is easy to finely adjust the compression force of the hose 30 pump has a stepped inclined surface 51 is formed on one surface so as to easily fine-tune the distance between the rotor 40 and the shoe 60 In addition, the slide wedge 50 described above having the recessed groove 54 and the recessed groove 53 formed so as not to interfere with the fixing bolt 70 fixing the rotor 40 and the shoe 60 is provided with the rotor 40. Composed between the shoe 60, the rotor 40 and the shoe 60 is fixed to the fixing bolt 70 to increase or decrease the slide wedge 50 by one step and tighten the fixing bolt 70 Only the slide wedge 50 or the shoe 60 is prevented from being separated and at the same time the distance between the rotor 40 and the shoe 60 is adjusted.

As described above, the present invention is not limited to the above-described embodiments, but can be variously changed within the spirit and concept of the present invention.

10: motor 20: housing
21: cover 30: hose
40: rotor 41: stairs type slope
42: Fixed 43: Long
50: slide wedge 51: stepped slope
52: fixation 53: danyo groove
54: Jangyo Home 60: Shoe
61: PTFE coating layer 70: fixing bolt

Claims (5)

In the hose pump consisting of a hose of the inner wall of the housing, a rotor that rotates by the rotational force of the motor in the housing and a shoe for compressing the hose at the end of the rotor,
A stepped slope is formed at the end of the rotor,
Hose pump easy to fine-tune the hose compression force, characterized in that the slide wedge formed with a stepped inclined surface corresponding to the stepped inclined surface of the rotor to adjust the distance between the rotor and the shoe. The method of claim 1,
The rotor described above has a stepped inclined surface formed of a right angled staircase at both ends, a fixed piece protrudes from one end of the stepped slope, and easy adjustment of the hose crimping force, characterized in that the long hole is formed on the fixed piece. Hose pump. The method of claim 1,
The above-described slide wedge has a stepped inclined surface corresponding to the stepped inclined surface of the rotor on the inclined surface of the trapezoidal hexahedron, grooves penetrating the stepped inclined surface of the slide wedge, and the fixing bolt for fixing the slide wedge to the rotor is inserted and fixed Easy to fine-tune hose pump, characterized in that the fixing hole is formed. The method of claim 3, wherein
The above-mentioned groove is easy to finely adjust the hose pressing force, characterized in that consisting of the groove formed in the upper groove and the lower side of the trapezoidal hexahedral slide wedge so that only the slide wedge is moved between the rotor and the shoe. One hose pump. The method of claim 1,
The above-described shoe is a hose pump that is easy to fine-tune the hose compressive force, characterized in that the coating of polytetrafluoroethylene (polytetrafluoroethylene; PTFE).

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