Sewing machine head lift device

A lift device for a sewing machine head of the type having a free arm to alternately provide flat bed, free arm and storage positions in a cabinet having a tabletop with a cutout for the sewing machine head and a pivoting lift mechanism disposed beneath the cutout. The lift device includes a base plate for the sewing machine head secured to the pivoting lift mechanism to permit movement of the sewing machine head between the flat bed, free arm and storage positions. The lift mechanism includes a pair of primary links having first ends pivotally secured to the underside of the tabletop adjacent and on opposite sides of the cutout and a pair of secondary links having first ends pivotally secured at opposite sides of the base plate remote from the points at which the primary links are secured to the tabletop with the second ends of the primary links being pivotally secured to the second ends of the secondary links. The lift device also includes structure in the form of members which engage and disengage in response to movement of the lift mechanism for supporting the sewing machine head in each of the flat bed, free arm and storage positions. By limiting relative pivotal movement between the primary links and the secondary links and between the secondary links and the base plate, the lift device is capable of shifting the center of gravity of the sewing machine head toward the pivot point during movement between the flat bed, free arm and storage positions.

BACKGROUND OF THE INVENTION 
The present invention generally relates to a sewing machine lift device 
and, more particularly, to a lift device to alternately provide flat bed, 
free arm and storage positions for a sewing machine head of the type 
having a free arm. 
A wide variety of mounting mechanisms for domestic sewing machines which 
are mounted in cabinets have been proposed in the past. These machines are 
normally provided with a mounting mechanism which enables the sewing 
machine to be secured in an upper operating position and also to be 
lowered into a storage position within the cabinet. In addition, mounting 
mechanisms for free arm sewing machines provide an additional higher 
working position to optimize the use of the free arm feature. 
Although mounting mechanisms for free arm sewing machines are known, they 
are often quite complex, difficult to operate, and require heavy lifting. 
Specifically, such mounting mechanisms commonly consist of rear hinge 
points about which the sewing machine pivots into the storage position 
and, in addition, a forward hinged section is commonly provided in the 
cabinet top for clearance for passage of the head of the sewing machine 
and also to provide support to hold the machine in the operating position, 
but the primary disadvantage of this type of system is that the forward 
hinged section, and the clearances required, necessitate that the working 
position of the machine is relatively far back from the front of the 
cabinet. Moreover, moving the sewing machine from the storage position 
requires lifting much of the head weight of the sewing machine and, 
importantly, the movement is often in an awkward rearward arc which 
dictates the need for spring assists or counterbalances. 
With the more recent popularity of the free arm sewing machine, the need 
for a three position lift mechanism has been emphasized. Typical examples 
of these types of mechanisms can be seen in any of U.S. Pat. Nos. 
4,005,918; 4,108,512; 4,132,454; 4,201,427; and 4,274,686. While the 
primary problem of providing a lift mechanism has been addressed, no one 
has successfully overcome the recognized disadvantages of such mechanisms. 
In order to overcome the problems in this area, the present invention 
provides a new lift device whose primary objective is to provide two 
working positions near the front of the cabinet. A further important 
object is to provide a lift device which inherently shifts the sewing 
machine center of gravity closer to the pivot point during movement. 
Another important object is to significantly reduce the force required to 
move the sewing machine between the various positions without the need for 
spring assistance. Still another important object is to provide a lift 
device which can be simply and conveniently shifted between the various 
positions from a seated operating position. Additional objects will become 
apparent from a consideration of the details of construction and operation 
set forth hereinafter. 
SUMMARY OF THE INVENTION 
The present invention is directed to a sewing machine lift device to 
alternately provide flat bed, free arm and storage positions for a machine 
of the type having a free arm. The device is well suited for use with a 
cabinet which has a tabletop with a cutout for the sewing machine, and the 
device includes a pivoting lift mechanism adapted to be disposed beneath 
the cutout. In addition, the device includes a base for the sewing machine 
secured to the lift mechanism to permit movement of the sewing machine 
head between the flat bed, free arm and storage positions. 
The lift mechanism includes means for shifting the center of gravity of the 
sewing head toward the pivot point. More specifically, the shifting means 
includes primary means pivotally secured to the underside of the tabletop 
and secondary means pivotally secured at the base with the primary means 
and the secondary means being pivotally secured to one another. The lift 
mechanism also includes means for limiting relative pivotal movement 
between the primary means and the secondary means and between the 
secondary means and the base. 
Referring to the invention in greater detail, the base advantageously 
comprises a base plate on which the sewing machine is to be mounted. It is 
also contemplated that the center of gravity shifting means shall include 
a pair or primary links each of which has a first end pivotally secured to 
the underside of the tabletop adjacent and on opposite sides of the cutout 
and a pair of secondary links each of which has a first end pivotally 
secured at opposite sides of the base plate remote from the points at 
which the primary links are secured to the tabletop, and the secondary 
links have second ends pivotally secured to the primary links. Moreover, 
the means for limiting relative pivotal movement between the primary links 
and the secondary links is preferably a pin and slot arrangement. 
In a preferred embodiment, the pin and slot arrangement includes a curved 
slot with a pin disposed therein. The length of the curved slot determines 
the limits for relative pivotal movement. Preferably, the pin is provided 
on the secondary link and the curved slot is provided in the primary link. 
Additionally, the base plate is provided with a pair of base brackets on 
opposite sides thereof and the secondary links have their first ends 
pivotally secured to the base brackets. The means for limiting relative 
pivotal movement between the secondary links and the base plate is again a 
pin and curved slot arrangement with the length of the slot determining 
the limits for relative pivotal movement. Advantageously, the pin is 
provided on the secondary link and the curved slot is provided in the base 
bracket. 
Additional details of the preferred embodiment include a pin and latch 
arrangement comprising the means for supporting the sewing machine in the 
flat bed position. The pin and latch arrangement preferably includes a 
pivotable spring biased primary latch having a pin receiving portion with 
the sewing machine being supported in the flat bed position when the pin 
is disposed in the pin receiving portion of the primary latch. The primary 
latch preferably is provided on a mounting bracket on the underside of the 
tabletop disposed on one side of the cutout with the pin being provided on 
the primary link for engagement with the primary latch. Additionally, the 
means for supporting the sewing machine in the free arm position 
preferably includes a pair of pin and latch arrangements on opposite sides 
of the cutout. 
For support in the free arm position of the sewing machine, the pin and 
latch arrangements preferably include the primary latches and a pair of 
pivotable spring biased secondary latches each of which advantageously 
includes a pin receiving portion. The secondary latches are preferably 
provided on the primary links with the corresponding pins being provided 
on the secondary links. With this arrangement, the sewing machine head is 
supported in the free arm position when the respective pins are disposed 
in the pin receiving portions of the pairs of primary and secondary 
latches. 
Among other features is a stop in the form of a rigidly mounted block 
disposed beneath the cutout for supporting the sewing machine head in a 
storage position at a point remote from the base plate. Also, another stop 
in the form of a rigidly mounted block is disposed beneath the cutout to 
limit pivotal movement of the primary link in one direction when the 
sewing machine head is moved to the storage position. 
Other objects, advantages and features of the present invention will be 
apparent from a consideration of the foregoing details taken in 
conjunction with the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
Referring to FIG. 1, the reference numeral 10 designates generally a sewing 
machine lift device to alternately provide flat bed, free arm and storage 
positions for a sewing head 12 of the type having a free arm. The sewing 
machine lift device 10 includes a cabinet 11 having a tabletop 14 with a 
cutout 16 for the sewing head 12 and a pivoting lift mechanism 18 disposed 
beneath the cutout 16. In addition, the sewing machine lift device 10 
includes a base 20 for the sewing head 12 secured to the pivoting lift 
mechanism 18 to permit movement of the sewing head 12 between the flat 
bed, free arm and storage positions. 
The pivoting lift mechanism 18 includes means for shifting the center of 
gravity of the sewing head 12 toward the pivot point or pin 22. More 
specifically, the shifting means, which reduces the primary pivot radius 
and, thus, the moment arm of the sewing head 12, includes primary pivot 
means or link 24 pivotally secured to the underside of the tabletop 14 by 
means of a bracket 25 and secondary pivot means or link 26 pivotally 
secured at the base 20, with the primary pivot means or link 24 and the 
secondary pivot means or link 26 being pivotally secured to one another 
for relative movement about the pivot point or pin 28. The pivoting lift 
mechanism 18 also includes means for limiting relative pivotal movement 
between the primary secondary pivot means or link 24 and the secondary 
pivot means or link 26 and between the secondary pivot means or link 26 
and the base 20. 
As shown in the drawings, the base 20 comprises a base plate on which the 
sewing head 12 is to be mounted. It will also be appreciated that, in the 
preferred embodiment, the center of gravity shifting means will actually 
include a pair of primary links 24 each of which has a first end 24a 
pivotally secured to the underside of the tabletop 14 by means of a 
corresponding bracket 25 adjacent and on opposite sides of the cutout 16 
and a pair of secondary links 26 each of which has a first end 26a 
pivotally secured at opposite sides of the base plate 20 remote from the 
points at which the primary links 24 are secured to the tabletop 14 and a 
second end 26b pivotally secured to the second end 24b of the 
corresponding secondary link 24. Moreover, the means for limiting relative 
pivotal movement between each of the pairs of primary links 24 and 
secondary links 26 is a pin and slot arrangement 30. 
In the preferred embodiment, the pin and slot arrangements 30 each include 
a curved slot 32 with a pin 34 disposed therein. The length of the curved 
slot 32 can be a preselected amount to determine the limits for relative 
pivotal movement. Preferably, the pins 34 are provided on the secondary 
links 26 and the curved slots 32 are provided in the primary links 24. 
Additionally, the base plate 20 is provided with a pair of base brackets 36 
on opposite sides thereof and the secondary links 26 have their first ends 
26a pivotally secured to the base brackets 36 by means of base pivot 
points or pins 37. The means for limiting relative pivotal movement 
between each of the secondary links 26 and the base plate 20 is again a 
pin and curved slot arrangement 38 each of which preferably includes a pin 
40 disposed in a curved slot 42 with the length of the slot 42 determining 
the limits for relative pivotal movement. Advantageously, the pins 40 are 
provided on the secondary links 26 and the curved slots 42 are provided in 
the base brackets 36. 
Additional details of the preferred embodiment include a pin and latch 
arrangement 44 comprising the means for supporting the sewing head 12 in 
the flat bed position (see FIG. 3). The pin and latch arrangement 44 
preferably includes a pivotable spring biased primary latch 46 having a 
pin receiving portion 48, and the sewing head 12 is supported in the flat 
bed position when the pin 28 is disposed in the pin receiving portion 48 
of the primary latch 46. The primary latch 46 preferably is provided on a 
mounting bracket 50 on the underside of the tabletop 14 disposed on one 
side of the cutout 16 with the pin 28 being an extension of the pivot 
point between the primary link 24 and the secondary link 26 for engagement 
with the primary latch 46. Additionally, the means for supporting the 
sewing head 12 in the free arm position preferably includes a pair of pin 
and latch arrangements 44 and 52 (see FIG. 5). 
For support in the free arm position of the sewing machine, the pin and 
latch arrangements 44 and 52 preferably include the pivotable spring 
biased primary latch 46 and a pivotable spring biased secondary latch 54 
each of which advantageously includes a pin receiving portion 48 and 56, 
respectively. The primary latch 46 is preferably provided on the mounting 
bracket 50 adjacent the path of travel of the primary and secondary links 
24 and 26 and the secondary latch 54 is preferably provided on the primary 
link 24 with the corresponding pin 58 being provided on the secondary link 
26. With this arrangement, the sewing head 12 is supported in the free arm 
position when the pins 28 and 58 are disposed in the pin receiving 
portions 48 and 56 of the primary and secondary latches 46 and 54, 
respectively. 
Referring once again to FIG. 1, the sewing machine lift mechanism 10 
includes means for supporting the sewing head 12 in the storage position 
in the form of a stop 60. The stop 60, which is disposed beneath the 
cutout 16 and secured to the cabinet 11, is a rigidly mounted block for 
supporting the sewing head 12 at a point remote from the base plate 20. 
Also, a stop 62 is provided to limit pivotal movement of the primary link 
24 in one direction. The stop 62, which is also disposed beneath the 
cutout 16 and secured to the cabinet 11, is similarly a rigidly mounted 
block abutted by the primary link 24 when the sewing head 12 is moved to 
the storage position (shown in phantom lines in FIG. 1). With this 
construction, the sewing machine head 12 cannot inadvertently be lowered 
beyond the storage position. 
Finally, as discussed in connection with the center of gravity shifting 
means, a pair of primary links 24 and secondary links 26 are provided. 
Similarly, the lift device 10 will include not only a pair of pin and slot 
arrangements 30 and a pair of pin and slot arrangements 38, but also a 
pair of pin and latch arrangements 44 and a pair of pin and latch 
arrangements 52, each of which is of identical construction and disposed 
on opposite sides of the cutout 16 in the preferred embodiment. While the 
components have in some instances been discussed in the singular for 
clarity, they are advantageously utilized in pairs on opposite sides of 
the cutout 16. 
OPERATION 
Referring to FIG. 1, the phantom lines illustrate the sewing head 12 in a 
storage position resting on the stop 60 with the hinged panel 14a in an 
open position. When the sewing head 12 is in the storage position, the pin 
34 is in engagement with one end of the slot 32, the pin 40 is in 
engagement with one end of the slot 42, and the primary link 24 is in 
engagement with the stop 62. As the sewing machine head 12 is raised, the 
initial pivotal motion of the head 12, base plate 20, and secondary link 
26 occurs about the pivot point or pin 28 such that the secondary link 26 
pivots in a rearward (relative to the front of the cabinet 11) or 
clockwise direction relative to the primary link 24 by a preselected 
amount where the pin 34 engages the opposite end of the slot 32 (as shown 
in solid lines in FIG. 1). When the pin 34 has engaged the opposite end of 
the slot 32, further pivotal movement of the sewing head 12 occurs about 
the pivot point or pin 22. At this point, the center of gravity of the 
sewing machine head 12 has been substantially shifted toward the pin 22 
and a major portion of the weight of the sewing machine head 12 is 
supported in near vertical alignment by the pins 22 and 28. 
Referring to FIG. 2, the solid lines illustrate that further pivotal 
movement of the sewing head 12 about the pin 22 causes the secondary link 
26 to pivot in a rearward or clockwise direction with the primary link 24. 
When the secondary link 26 and the primary link 24 have been pivoted 
together by a preselected amount, the pin 28 which projects outwardly from 
the primary link 24 engages and pivotally displaces the spring biased 
primary latch 46 until the detent shoulder 46a is engaged by the pin 28 
and the pin 28 is disposed in the pin receiving portion 48 due to the 
biasing action of spring 46b. With the primary latch 46 engaged by the pin 
28, forward or counterclockwise pivotal movement of the sewing machine 
head 12 about the pin 28 causes the secondary link 26 to pivot in a 
forward or counterclockwise direction relative to the primary link 24. 
When the pin 34 again engages the one end of the slot 32 following pivotal 
movement of the secondary link 26 by a preselected amount, the sewing 
machine head 12 is in the lower or flat bed operating position and the 
hinged rear section or panel 14a is closed (as shown in solid lines in 
FIG. 3). In addition, it will be noted from the drawings that the pin 58 
projecting from the secondary link 26 will have displaced the pivotable 
spring biased secondary latch 54 without engagement. 
In order to lower the sewing head 12 from the lower or flat bed operating 
position to the storage position, the hinged panel 14a is opened. Next, 
the sewing machine head 12 is pivotally moved about the pin 28 such that 
the secondary link 26 pivots in a rearward or clockwise direction relative 
to the primary link 24 by a preselected amount where the pin 34 engages 
the opposite end of the slot 32 (as shown in phantom lines in FIG. 3). 
Then, the sewing machine head 12 is pivotally moved about the pin 22 such 
that the secondary link 26 is pivoted in a rearward or clockwise direction 
with the primary link 24 by a preselected amount where the pin 28 releases 
the primary latch 46 which is repositioned by the spring 46b. Next, the 
sewing head 12 is lowered toward the storage position by first pivotally 
moving it about the pin 22 such that the secondary link 26 is pivoted in a 
forward or counterclockwise direction with the primary link 24 by a 
preselected amount where the primary link 24 engages the stop 62 (as shown 
in solid lines in FIG. 1). Finally, the sewing machine head 12 is 
pivotally moved further about the pin 28 such that the secondary link 26 
pivots in a forward or counterclockwise direction relative to the primary 
link 24 by a preselected amount where the pin 34 again engages the one end 
of the slot 32 and the head 12 is resting on the stop 60. 
However, in the event that it is desired to raise the sewing head 12 from 
the lower or flat bed operating position to the upper or free arm 
operating position, the hinged panel 14a is opened and the head 12 is 
pivotally moved about the pin 28 such that the secondary link 26 pivots in 
a rearward or clockwise direction relative to the primary link 24 (as 
shown in solid lines in FIG. 4). When the secondary link 26 has been 
pivoted relative to the primary link 24 by a preselected amount, the pin 
58 engages and pivotally displaces the spring biased secondary latch 54 
until the detent shoulder 54a is engaged by the pin 58 and the pin 58 is 
disposed in the pin receiving portion 56 due to the biasing action of the 
spring 54b (as shown in solid lines in FIG. 4). When the pin 58 is 
disposed in the pin receiving portion 56, the sewing head 12 is pivotally 
moved about the pivot point or pin 37 such that the base plate 20 is 
pivoted in a forward or counterclockwise direction relative to the 
secondary link 26 by a preselected amount with the rear portion of the 
base plate 20 raised above the tabletop 14 sufficiently to permit the 
hinged panel 14a to be closed. When the hinged panel 14a has been closed, 
the sewing head 12 is pivotally moved about the pin 37 such that the base 
plate 20 pivots in a rearward or clockwise direction relative to the 
secondary link 26 by a preselected amount where the edge of the base plate 
20 confronting the hinged panel 14a rests upon and is supported by a 
complementary edge of the closed hinged panel 14a (as shown in solid lines 
in FIG. 5). After this has been done, the sewing head 12 is in the upper 
or free arm operating position with the base plate 20 disposed in the 
plane of the tabletop 14. 
Referring to FIGS. 5 and 6, the movement required to return the sewing head 
12 from the upper or free arm operating position to the lower or flat bed 
operating position is illustrated. The sewing machine head 12 is initially 
pivotally moved about the pin 37 such that the base plate 20 is pivoted in 
a forward or counterclockwise direction relative to the secondary link 26 
by a preselected amount sufficient to position the edge of the base plate 
20 confronting the hinged panel 14a above the tabletop 14 such that the 
hinged panel 14a can be opened. When the hinged panel 14a has been opened, 
the sewing machine head 12 is pivotally moved about the pin 37 such that 
the base plate 20 is pivoted in a rearward or clockwise direction relative 
to the secondary link 26 by a preselected amount where the pin 40 engages 
the one end of the slot 42 (as shown in phantom lines in FIG. 5). At this 
point, further pivotal movement of the sewing head 12 occurs about the pin 
28 such that the secondary link 26 is pivoted in a rearward or clockwise 
direction relative to the primary link 24 by a preselected amount where 
the pin 58 releases the secondary latch 54 which is repositioned by the 
spring 54b. When the pin 58 has released the secondary latch 54, the 
sewing machine head 12 is pivotally moved about the pin 28 such that the 
secondary link 26 pivots in a forward or counterclockwise direction 
relative to the primary link 24 by a preselected amount where the pin 34 
engages the one end of the slot 32 at which point the sewing head 12 is in 
the lower or flat bed operating position (as shown in phantom lines in 
FIG. 4). 
If it is desired to lower the sewing head 12 from the upper or free arm 
operating position directly to the storage position, this can be 
accomplished by further pivotal movement in the rearward or clockwise 
direction as shown in FIG. 7. When the sewing machine head 12 is pivotally 
moved about the pin 28 such that the secondary link 26 is pivoted in a 
rearward or clockwise direction relative to the primary link 24 by a 
preselected amount where the secondary latch 54 is released by the pin 58, 
additional pivotal movement in the rearward or clockwise direction causes 
the pin 34 to engage the opposite end of the slot 32 and transfer the 
pivotal movement to the pin 22. As will be appreciated, further pivotal 
movement of the sewing head 12 about the pin 22 such that the secondary 
link 26 is pivoted in the rearward or clockwise direction with the primary 
link 24 by a preselected amount causes the pin 28 to release the primary 
latch 46 which is repositioned by the spring 46b after which the sewing 
machine head 12 is pivotally moved about the pin 22 such that the 
secondary link 26 is pivoted in the forward or counterclockwise direction 
with the primary link 24 by a preselected amount where the primary link 24 
is in engagement with the stop 62. At this point, the sewing machine head 
12 is pivotally moved about the pin 28 such that the secondary link 26 is 
pivoted in a forward or counterclockwise direction relative to the primary 
link 24 by a preselected amount where the pin 34 engages the one end of 
the slot 32 and the head 12 is in engagement with the stop 60. 
As will be appreciated from a consideration of the structure and operation 
of the present invention, the sewing machine lift mechanism is capable of 
providing two working positions, i.e., a lower or flat bed operating 
position and an upper or free arm operating position, both of which are 
near the front of the cabinet. The lift mechanism also inherently shifts 
the sewing machine center of gravity closer to the pivot point whereby the 
force required to move the sewing machine between the various positions is 
greatly reduced without the need for spring assistance or counterbalances. 
Moreover, the sewing machine head can be simply and conveniently shifted 
between the various positions from a seated operating position with the 
utilization of relatively simple mechanical structure representing a 
significant advancement in multiple position sewing machine cabinet lift 
devices. 
Variations of the details herein given may be made by those skilled in the 
art without departing from the spirit and scope of the present invention 
as defined by the appended claims.