DE102019006574A1 - Hand machine tool and method of making a hand machine tool - Google Patents

Abstract

The invention relates to a hand machine tool (100), in particular a hand grinder, comprising a housing (102) for receiving a drive unit (104) for the hand machine tool (100), the housing (102) having a first housing element (106) and a has a second housing element (108), which are arranged adjacent to one another on a contact plane oriented in the longitudinal direction of the hand machine tool (100), an energy storage receiving interface (112) for detachably receiving at least one energy storage (114), the energy storage receiving interface (112) being a receiving guide element ( 116), which is arranged transversely to the contact plane, and wherein the receiving guide element (116) is manufactured as an integral part of the first housing element (106) and / or of the second housing element (108). Machine tool (100) according to one of the preceding embodiments, comprising d The steps: providing (200) the first housing element (106) and the second housing element (108) by means of injection molding and assembly (300) of the hand machine tool (100).

Description

Technical area

The invention relates to a hand machine tool, in particular a hand grinder, comprising a housing for receiving a drive unit for the hand machine tool, the housing having a first housing element and a second housing element which adjoin one another on a contact plane oriented in the longitudinal direction of the hand machine tool are arranged, an energy storage receiving interface for detachably receiving at least one energy storage, wherein the energy storage receiving interface has a receiving guide element which is arranged transversely to the contact plane.

The invention further relates to a method for manufacturing a hand machine tool.

State of the art

Such hand machine tools are basically known in the prior art. For example, the DE 10 2013 217 553 B4 a grinding machine housing device for a hand grinder, with at least one housing element which specifies an input and output axis plane in which a drive axis of a drive unit of the hand grinder extends in a state of the drive unit arranged in the housing element and in which an output axis of an output unit of the hand grinder extends in a in the housing element arranged state of the output unit extends, and with at least one arranged on the housing element energy storage receiving interface for a detachable receiving of at least one energy storage device, wherein the energy storage receiving interface comprises at least one receiving guide element. It is proposed that the receiving guide element have a main guide axis running transversely to the plane of the input and output axes.

The known hand machine tools partly consist of several components, which makes both the production and the assembly of the hand machine tools complex and costly. In addition, known hand machine tools have the problem that the center of gravity is unfavorable, as a result of which the handling of the hand tool is sometimes made more difficult.

Presentation of the invention

The object of the invention is to create a hand machine tool which is compact and simple in design. In addition, the object of the invention is to provide a hand machine tool which enables efficient assembly and improved handling.

The object is achieved by the features of claim 1. The invention comprises a hand machine tool, in particular a hand grinder, comprising a housing for receiving a drive unit for the hand machine tool, the housing having a first housing element and a second housing element which are arranged adjacent to one another on a contact plane oriented in the longitudinal direction of the hand machine tool are. The hand-held machine tool also includes an energy storage receiving interface for detachably receiving at least one energy storage, the energy storage receiving interface having a receiving guide element which is arranged transversely to the contact plane, and wherein the receiving guide element is made as an integral part of the first housing element and / or the second housing element.

This has the technical advantage, for example, that the hand machine tool can be manufactured and assembled with a significantly reduced number of components. In particular, the energy storage receiving interface has a simplified structure, since the receiving guide element is designed as an integral part of the housing. In other words, it is not necessary to mount the energy storage receiving interface separately and to attach it to the housing as an adapter. Instead, the receiving guide element is integrated directly into the housing. During production, the receiving guide element is thus formed directly and in one piece as a component of the first housing element and the second housing element. As a direct consequence, the number of assembly steps is reduced, which in turn affects the manufacturing costs.

Another advantage is the increased compactness of the hand machine tool. Due to the reduced number of components, the center of gravity can be brought closer to the grinding wheel axis. This results in simplified handling of the hand machine tool.

The housing is preferably provided to support bearing forces, such as, for example, drive unit bearing forces, electronics unit bearing forces, etc. The housing thus preferably comprises at least one bearing area in which a bearing element can be arranged, in particular a bearing element for mounting a drive unit of the hand-held grinding machine. The energy storage receiving interface is preferably designed as a battery receiving interface. The energy storage receiving interface is therefore preferred provided to accommodate an energy store designed as a storage battery device. The energy store is preferably slidable into the energy store receiving interface or designed to be slidable onto the energy store receiving interface. The energy store and the energy store receiving interface are thus connected, in particular as a result of a translational movement of the energy store relative to the energy store receiving interface. Particularly preferably, the energy store is guided in translation to an arrangement at the energy store receiving interface, at least by means of the receiving guide element. Thus, the receiving guide element is preferably designed as an insertion guide element or as a slide-on guide element.

The orientation of the receiving guide element, which is formed transversely to the contact plane, is to be understood as the orientation of that plane in relation to the contact plane on which the translationally guided insertion movement of the energy store into the energy store receiving interface takes place. Any angle between the plane guiding the insertion movement and the contact plane between the first housing element and the second housing element, which is in an interval greater than 0 ° and less than 180 °, can be understood as transverse.

The expression that the receiving guide element is manufactured as an integral part of the first housing element and / or the second housing element is intended to exclude that the receiving guide element is attached to the housing or to the first or second housing element in a separate assembly step. Instead, the receiving guide element should be understood as a solid, one-piece component of either the first housing element or the second housing element or of both, that is, of the first and the second housing element.

According to a preferred embodiment, a first section of the receiving guide element is produced as an integral component of the first housing element and a second section of the receiving guide element is produced as an integral component of the second housing element. As a result, for example, the technical advantage is achieved that the receiving guide element is only completely brought together when the first housing element and the second housing element are joined together. The receiving guide element thus consists of two shortened sections which are easier to manufacture. This applies, for example, to the injection molding manufacturing process.

According to a particular embodiment, the receiving guide element has at least two guide grooves arranged in parallel. This achieves the technical advantage, for example, that the energy store can very easily be pushed into the energy store receiving interface or pushed onto the energy store receiving interface. The guide grooves are reliable and easy to manufacture.

According to an additional embodiment, the receiving guide element is designed orthogonally to the contact plane. The orthogonal arrangement of the receiving guide element represents a special case of an angle of approximately 90 ° between the plane of the exception guide element guiding the insertion movement and the contact plane between the first housing element and the second housing element. In this configuration, the hand machine tool is particularly compact. The center of gravity is very close to the drive axis and the grinding wheel axis, which means that handling is optimal.

According to a further embodiment, a drive axis of the drive unit lies in the contact plane. As a result, for example, the technical advantage is achieved that the structure of the hand machine tool is largely symmetrical. In a particularly preferred embodiment, the contact plane at least partially forms a plane of symmetry of the housing. This achieves the technical advantage, for example, that the center of gravity can be determined more precisely and can therefore be brought closer to the grinding wheel axis. Another advantage lies in the manufacture of the first and second housing elements. As a result of the equalization of the size and the dimensions of the two housing elements, the manufacturing process - particularly in the case of injection molding - is particularly simple.

According to the invention, the energy storage receiving interface advantageously has a contact pin carrier carrying contact pins, the contact pin carrier being held exclusively by receiving bearings which are each formed integrally with the first housing element and integrally with the second housing element. This achieves the technical advantage, for example, that no further means for mounting are necessary between the first housing element and the contact pin carrier, and between the second housing element and the contact pin carrier. In addition, the receiving bearings can be designed in one piece as a fixed component during the manufacture of the first and the second housing element. This additionally reduces the assembly effort of the hand machine tool, since the number of components is reduced.

In a further preferred embodiment, the hand-held machine tool has an on / off switch, the on / off switch being held by receiving bearings which are each formed integrally with the first housing element and integrally with the second housing element. The resulting technical advantages are largely comparable with the technical advantages of the previous embodiment. For example, the technical advantage is achieved that no further storage means are necessary between the first housing element and the on / off switch, and between the second housing element and the on / off switch. In addition, the receiving bearings can be designed in one piece as a fixed component during the manufacture of the first and the second housing element. This additionally reduces the assembly effort of the hand machine tool, since the number of components is reduced.

According to a further embodiment, the housing comprises a penetration section which is arranged between a housing section receiving the drive unit and the energy storage receiving interface. The passage section has a reduced cross section compared to the housing section accommodating the drive unit. The reach-through section enables ergonomically improved guidance of the hand machine tool. For example, the ball of the hand can be placed on the handle of the housing. The index finger and the middle finger can be placed in the direction of the front of the housing and can thus operate the on / off switch. The ring finger and the little finger, on the other hand, can be placed against the penetration section or arranged in the space below the penetration section, whereby particularly good guidance of the hand-held machine tool is possible in one-handed operation.

According to an additional embodiment, the housing comprises a suction connector for connecting a vacuum cleaner, the suction connector being formed by the first housing element and the second housing element. In this way, for example, the technical advantage is achieved that no additional component has to be provided and installed to provide the suction connection.

According to a particularly preferred embodiment, the suction nozzle is designed symmetrically to the contact plane of the housing. In this embodiment, both the energy storage receiving interface and the suction connection of the drive axis of the handheld power tool can be oriented in the same direction. If this direction is aligned, for example, in the direction of the user of the hand-held power tool when the hand-held machine tool is in operation, several particular advantages come into play. Since the suction nozzle is led away in the direction of the user, the suction nozzle itself and a conventional hose connection to a connected vacuum cleaner no longer present any visual impairment. Thus, the machining efficiency and the machining quality are increased. The same advantage results from arranging the energy storage device in the direction of the user. The optical restrictions in the operation of the hand machine tool can be reduced, whereby the flexibility, the control, as well as the machining efficiency and the machining quality can be increased. Another great advantage results from the resulting compactness and the coordination of the center of gravity of the hand machine tool in relation to the grinding wheel axis. In summary, this embodiment represents a completely optimized and easy-to-use configuration. This is particularly preferred, for example, in combination with the reach-through section.

With regard to a further aspect of the present invention, the object is achieved by a method for manufacturing a hand machine tool according to one of the preceding embodiments.

Accordingly, the method comprises the steps of providing the first housing element and the second housing element by means of injection molding and assembling the hand machine tool.

Injection molding is often also referred to as injection molding or injection molding process. This is a primary molding process that is mainly used in plastics processing. The respective material is liquefied or plasticized into a mold, the injection molding tool, and injected under pressure with an injection molding machine. In the tool, the material returns to its solid state through cooling or a crosslinking reaction and is removed as a finished part after the tool is opened. The removal of the finished part is also referred to as demolding, whereby the tool is opened and the workpiece is ejected by pins penetrating into the cavity. Demolding regularly limits the geometry of the finished part, which means that compromises have to be made in production.

Against this background, the method according to the invention achieves, for example, the technical advantage that both the first and the second housing element are injection molded can be produced because they comprise the receiving guide element as an integral part of the first housing element and / or the second housing element and because the receiving guide element runs transversely to the contact plane arranged in the longitudinal direction of the hand tool between the first housing element and the second housing element.

In other words, only the orientation of the receiving guide element defined by the two parallel guide grooves transversely to the contact plane between the first housing element and the second housing element enables production in the injection molding process, because only such an orientation is demoulding during the injection molding process at all possible.

The further advantages of the method according to the invention correspond in a similar form to the advantages of the hand machine tool according to the invention.

These relate in particular to the fact that the hand machine tool can be manufactured and assembled with a significantly reduced number of components, since the receiving guide element is designed as an integral part of the housing and can be manufactured by injection molding. It is not necessary to mount the energy storage receiving interface separately and attach it to the housing as an adapter. The receiving guide element is integrated directly into the housing.

According to a preferred embodiment, the assembly of the hand machine tool comprises the steps of arranging the drive unit, the on / off switch and the contact pin carrier in the first housing element, and closing the housing by means of the second housing element. In this way, for example, the technical advantage is achieved that all essential components of the hand machine tool which are to be arranged within the housing can initially only be arranged in the first housing element. The final fixation then takes place by closing the housing with the second housing element. As a result, the production of the hand machine tool is implemented particularly efficiently and reliably.

In addition, the electronics unit required for operating the handheld power tool can be arranged within the housing between the first housing element and the second housing element. In addition, a holder with receiving bearings arranged integrally in the housing elements, according to the above embodiments, is recommended. In addition, the engine speed can be varied by means of an adjustment device. For example, an electronic setting wheel is suitable which can be arranged in the area of the penetration section.

Further advantageous embodiments and combinations of features of the invention emerge from the following detailed description and the entirety of the patent claims.

Figure list

• 1 eine perspektivische Ansicht einer Ausführungsform einer erfindungsgemäßen Hand-Werkzeugmaschine,
• 2 eine weitere perspektivische Ansicht einer Ausführungsform einer erfindungsgemäßen Hand-Werkzeugmaschine ohne Energiespeicher,
• 3 eine Schnittansicht einer Ausführungsform einer erfindungsgemäßen Hand-Werkzeugmaschine,
• 4 eine weitere Schnittansicht einer Ausführungsform einer erfindungsgemäßen Hand-Werkzeugmaschine,
• 5 eine weitere perspektivische Ansicht einer Ausführungsform einer erfindungsgemäßen Hand-Werkzeugmaschine ohne Energiespeicher, und
• 6 einen Ablaufplan für ein Verfahren zum Herstellen einer Hand-Werkzeugmaschine.

The drawings used to explain the exemplary embodiment show:

• 1 a perspective view of an embodiment of a hand machine tool according to the invention,
• 2 a further perspective view of an embodiment of a hand machine tool according to the invention without an energy store,
• 3 a sectional view of an embodiment of a hand machine tool according to the invention,
• 4th a further sectional view of an embodiment of a hand machine tool according to the invention,
• 5 a further perspective view of an embodiment of a hand machine tool according to the invention without energy storage, and
• 6th a flow chart for a method of manufacturing a hand machine tool.

In principle, the same parts are provided with the same reference symbols in the figures.

Ways of Carrying Out the Invention

The 1 shows a perspective view of an embodiment of a hand machine tool according to the invention 100 in the form of a hand grinder. The hand grinder 100 includes a housing 102 to accommodate a drive unit 104 (Not shown). The case 102 shows a first housing element 106 and a second housing element 108 , which on one in the longitudinal direction of the hand grinder 100 oriented contact level. At the rear of the hand grinder 100 is an energy storage receiving interface 112 arranged. The energy storage receiving interface 112 serves to detachably accommodate an energy store 114 which in a horizontal direction onto the energy storage receiving interface 112 is inserted. Below the energy storage receptacle interface 112 there is a suction nozzle 126 for connecting a vacuum cleaner. Through the central arrangement of the suction nozzle 126 if it is symmetrical to the contact plane of the housing 102 educated. On a front area of the housing 102 there is a handle for guiding the hand grinder 100 by a user. There is an on / off switch adjacent to the handle 120 .

The 2 shows a further perspective view of an embodiment of a hand machine tool according to the invention 100 in the form of a hand grinder without energy storage 114 . The 2 shows the energy storage receiving interface 112 for detachable mounting of the energy store 114 (Not shown). The energy storage receiving interface 112 comprises a receiving guide member 116 with two guide grooves arranged in parallel 131A , 131B . The guide grooves 131A , 131B are orthogonal to the contact plane between the first housing element 106 and the second housing element 108 arranged. The integral design of the receiving guide element can also be seen 116 as part of the first housing element 106 and the second housing element 108 . The take-up guide element 116 is divided into a first section 116A , which part of the first housing element 106 is, and in a second section 116B , which part of the second housing element 108 is. The first paragraph 116A and the second section 116B together form the receiving guide element 116 out.

The energy storage receiving interface 112 bid in an interior of the housing 102 a receptacle for a contact pin carrier 115 (Not shown). The contact pin carrier 115 is inside the case 102 through a reception center 118A held, which on the first housing element 106 is arranged and is an integral part of the same.

Below the energy storage receptacle interface 112 is the suction nozzle 126 arranged for connecting a vacuum cleaner.

The 3 shows a sectional view of an embodiment of a hand machine tool according to the invention 100 in the form of a hand grinder. The drive unit 104 is in the second housing element 108 added and a drive axle 105 the drive unit 104 lies exactly in the contact level. In the rear of the hand grinder 100 is the energy storage receiving interface 112 , with the second section 116B of the integral on the second housing element 108 trained receiving guide element 116 and the reception center 118B to hold the contact pin carrier 115 (not shown) can be seen.

Between which the drive unit 104 receiving housing section and the energy storage receiving interface 112 there is a reach-through section. The passage section has a reduced cross section compared to the housing section accommodating the drive unit. The reach-through section enables ergonomically improved guidance of the hand machine tool.

On the front area of the second housing element 108 is the on / off switch 120 arranged. The on / off switch 120 is attached to the second housing element 108 through a reception center 122B held, which is integral with the second housing element 108 is trained.

Below the energy storage receptacle interface 112 is the suction nozzle 126 arranged for connecting a vacuum cleaner.

The 4th shows a further sectional view of an embodiment of a hand machine tool according to the invention 100 in the form of a hand grinder. The drive unit 104 is in the first housing element 106 added and a drive axle 105 the drive unit 104 lies exactly in the contact level. In the rear of the hand grinder 100 is the energy storage receiving interface 112 , with the first section 116A of the integral on the first housing element 106 trained receiving guide element 116 and the reception center 118A to hold the contact pin carrier 115 (not shown) can be seen.

Below the energy storage receptacle interface 112 is the suction nozzle 126 shown for connecting a vacuum cleaner.

On the front area of the first housing element 106 is the on / off switch 120 arranged. The on / off switch 120 becomes on the first housing element 106 through a reception center 122A held, which is integral with the first housing element 106 is trained.

The 5 shows a further perspective view of an embodiment of a hand machine tool according to the invention 100 without energy storage 114 (Not shown). The first housing element 106 and the second housing element 108 together form the housing 102 and the energy storage receiving interface 112 carries the contact pin carrier 115 , which has multiple contact pins 113A , 113B , 113C, ... includes.

In addition, the energy storage receiving interface includes 112 that has two guide grooves arranged in parallel 131A , 131B having Take-up guide element 116 , which is arranged orthogonally to the contact plane.

Below the energy storage receptacle interface 112 is the suction nozzle 126 shown for connecting a vacuum cleaner.

The 6th shows a flow chart for a method according to the invention for manufacturing a hand machine tool 100 according to one of the preceding embodiments. The method comprises the steps of providing 200 of the first housing element 106 and the second housing element 108 by means of injection molding, arranging 310 the drive unit 104 , the on / off switch 120 and the contact pin carrier 115 in the first housing element 106 , and closing 400 of the housing 102 by means of the second housing element 108 .

In summary, it can be stated that the embodiments of the hand machine tool according to the invention can be combined with one another. None of the disclosed features excludes the combination with another feature and individual feature combinations interact with one another and form synergetic effects.

List of reference symbols

100

Hand machine tool

102

casing

104

Drive unit

105

Drive axle

106

First housing element

108

Second housing element

112

Energy storage receiving interface

113A, 113B, ..

Contact pins

114

Energy storage

115

Contact pin carrier

116

Take-up guide element

116A

first section receiving guide element

116B

second section receiving guide element

118A, 118B

Reception center

120

On / off switch

122A, 122B

Reception center

126

Suction nozzle

131A, 131B

Guide grooves

200

Provide

300

Assembly

310

Arrange

400

Closing

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 102013217553 B4 [0003]

Claims (12)

Hand machine tool (100), in particular hand grinder, comprising a housing (102) for receiving a drive unit (104) for the hand machine tool (100), wherein the housing (102) has a first housing element (106) and a second housing element (108), which are arranged adjacent to one another on a contact plane oriented in the longitudinal direction of the hand machine tool (100), an energy storage receiving interface (112) for detachably receiving at least one energy storage (114), the energy storage receiving interface (112) having a receiving guide element (116) which is arranged transversely to the contact plane, and wherein the receiving guide element (116) is produced as an integral part of the first housing element (106) and / or of the second housing element (108). Hand machine tool (100) according to Claim 1 , characterized in that a first section (116A) of the receiving guide element (116) is produced as an integral part of the first housing element (106) and a second section (116B) of the receiving guide element (116) is produced as an integral part of the second housing element (108). Hand machine tool (100) according to Claim 1 or 2 , characterized in that the receiving guide element (116) has at least two guide grooves (131A, 131B) arranged in parallel. Hand machine tool (100) according to one of the preceding claims, characterized in that the receiving guide element (116) is designed orthogonal to the contact plane. Hand machine tool (100) according to one of the preceding claims, characterized in that a drive axis (105) of the drive unit (104) lies in the contact plane. Hand machine tool (100) according to one of the preceding claims, characterized in that the contact plane at least partially forms a plane of symmetry of the housing (102). Hand machine tool (100) according to one of the preceding claims, characterized in that the energy storage receiving interface (112) has a contact pin carrier (115) carrying contact pins (113A, 113B, ...), wherein the contact pin carrier (115) is exclusively through each integral with the first housing element (106) and receiving bearings (118A, 118B) formed integrally with the second housing element (108). Hand machine tool (100) according to one of the preceding claims, characterized in that the hand machine tool (100) has an on / off switch (120), the on / off switch (120) being integral with the first housing element (106) and receiving bearings (122A, 122B) formed integrally with the second housing element (108). Hand machine tool (100) according to one of the preceding claims, characterized in that the housing (102) comprises a suction connector (126) for connecting a vacuum cleaner, wherein the suction connector (126) through the first housing element (106) and the second housing element ( 108) is formed. Hand machine tool (100) according to Claim 9 , characterized in that the suction nozzle (126) is symmetrical to the contact plane of the housing (102). Method for producing a hand machine tool (100) according to one of the Claims 1 to 10 comprising the steps: - providing (200) the first housing element (106) and the second housing element (108) by means of injection molding, - assembling (300) the hand machine tool (100). Procedure according to Claim 11 , wherein the assembly (300) of the hand machine tool (100) comprises the following steps: - arranging (310) the drive unit (104), the on / off switch (120) and the contact pin carrier (114) in the first housing element ( 106), and - closing (400) the housing by means of the second housing element.

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